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1.The Excavata includes taxa that are photosynthetic, parasitic, symbiotic and heterotrophic. Many of the taxa lack mitochondria, and, therefore, seemed to conform to the requirements of an archaic premitochondrial ancestor of all eukaryotes. This theory, called the Archezoa Hypothesis, was created by Cavalier-Smith (1983). The former archezoa began to find homes in interesting and unexpected places. Patterson (1999) and Simpson and Patterson (2001) defined a striking structural similarity that many of the former archezoan taxa possessed, a feeding groove called an excavate. The excavate was a groove that ran longitudinally on the cell surface and was associated with at least one recurrent flagellum, which set up currents in the groove that served to concentrate suspended particles and move them to a cytostome. Simpson (2003) identified seven such groups that had such an excavate apparatus: the Core Jakobids, Malawimonas, Trimastix, Carpediemonas, Retortomonads, Diplomonads, and the Heterolobosids (amoeboflagellates). Many of the excavate taxa were mitochondriate and had clear affinities with taxa that did not bear an excavate. So, by 2003 (Simpson 2003 and Cavalier-Smith 2003b) at least 10 groups (we interpret it as 11 groups) had been identified as excavate taxa (see Table 1). Burki et al. (2008) and Hampl et al. (2009) confirmed the monophyly of the excavates by phylogenomic analyses relative to members of the other supergroups. Furthermore, the excavates appear to be a very deep-rooting group, equivalent to the unikonts (Opisthokonta), and the bikonts (Chromalveolata + Rhizaria + Archaeplastida). 2.It is very difficult to discover drug against TB sice the bacteria which is mycobacterium is thermostabile and made up of mycolic acid . An increasing evidence of multidrug resistance in TB is the major problem in developing drug against TB. The mycobacterium is able to accumulate drug and become resistant to these drug. This bacteria develop allernative mechanism to become resistant to the drug. Malaria some antimalarials can only be used in certain areas of the world because parasites are resistant to some drugs. For example, chloroquine can only be used to prevent Plasmodium falciparum in regions of South America because Plasmodium falciparum is completely resistant to chloroquine in Africa and Asia. E. ameoba histoilica Solution 1.The Excavata includes taxa that are photosynthetic, parasitic, symbiotic and heterotrophic. Many of the taxa lack mitochondria, and, therefore, seemed to conform to the requirements of an archaic premitochondrial ancestor of all eukaryotes. This theory, called the Archezoa Hypothesis, was created by Cavalier-Smith (1983). The former archezoa began to find homes in interesting and unexpected places. Patterson (1999) and Simpson and Patterson (2001) defined a striking structural similarity that many of the former archezoan taxa possessed, a feeding groove called an excavate. The excavate was a groove that ran longit.
1.The Excavata includes taxa that are photosynthetic, parasitic, sym.pdf
1.The Excavata includes taxa that are photosynthetic, parasitic, sym.pdf
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1. According to morphological species concept focus on external physical characters such as size, shape, color structure of the organism . 2. Biological species concept explains why the members of species are resemble to one another. When two organisms are breeded their genes pass into their combined offspring. 3. Phylogenetic species concept defines a species as a group having a shared and unique evolotionary history. The offsprings in the concept are parental pattern of ancestry and descent. 4. Unified species concept achieved by treating existing as separately and secondary species criteria as different line of evidence. 5. From the above quenstion species XL and XXL are showing variation in their morphology and their number of chromosome. The remaining species show variation in the colour of shell. 6. From the above infromation the correct answer is option \"e\" all the above. Solution 1. According to morphological species concept focus on external physical characters such as size, shape, color structure of the organism . 2. Biological species concept explains why the members of species are resemble to one another. When two organisms are breeded their genes pass into their combined offspring. 3. Phylogenetic species concept defines a species as a group having a shared and unique evolotionary history. The offsprings in the concept are parental pattern of ancestry and descent. 4. Unified species concept achieved by treating existing as separately and secondary species criteria as different line of evidence. 5. From the above quenstion species XL and XXL are showing variation in their morphology and their number of chromosome. The remaining species show variation in the colour of shell. 6. From the above infromation the correct answer is option \"e\" all the above..
1. According to morphological species concept focus on external phys.pdf
1. According to morphological species concept focus on external phys.pdf
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1)calcium(pH-dependent regulation of lysosomal calcium in macrophages) Pulmonary macrophages are motile cells that respond to contact with suitable surfaces or micron-sized objects by undergoing movements that lead to spreading and phagocytosis. There is evidence that interactions of actin and other proteins in the cortical cytoplasm of macrophages provide the motor power for these movements and that variations in free calcium concentrations in the cortical cytoplasm of macrophages might control their directionality (1). If the plasma membrane maintains a large electrochemical gradient of calcium between the extracellular environment and the cytoplasm, a slight alteration of its activity could result in a considerable variation of cytoplasmic free calcium concentrations. If contact of the external surface of the plasma membrane with certain surfaces were somehow coupled to the calcium gradient- maintaining activity of the membrane, the interaction could lead to changes in peripheral cytoplasmic calcium levels. We have studied calcium transport across the macrophage plasma membrane, using phagocytic vesicles. Phagocvtic vesicles arise from the internalization of plasma membrane and thus constitute a system to study easily its inner surface. Furthermore, when prepared from macrophages that have ingested oil droplets, they can be purified rapidly by flotation with good yield and in an intact state (2). Using this approach, we have characterized a high affinity MgATP-dependent calcium pump located in the inner side of the plasma membrane 2).the protein was translated using ribosomes inside the ER( The endomembrane system (endo- = “within”) is a group of membranes and organelles in eukaryotic cells that works together to modify, package, and transport lipids and proteins. It includes a variety of organelles, such as the nuclear envelope and lysosomes, which you may already know, and the endoplasmic reticulum and Golgi apparatus, which we will cover shortly. Although it\'s not technically inside the cell, the plasma membrane is also part of the endomembrane system. As we\'ll see, the plasma membrane interacts with the other endomembrane organelles, and it\'s the site where secreted proteins (like the pancreatic enzymes in the intro) are exported. Important note: the endomembrane system does not include mitochondria, chloroplasts, or peroxisomes. Let\'s take a closer look at the different parts of the endomembrane system and how they function in the shipping of proteins and lipids. The endoplasmic reticulum The endoplasmic reticulum (ER) plays a key role in the modification of proteins and the synthesis of lipids. It consists of a network of membranous tubules and flattened sacs. The discs and tubules of the ER are hollow, and the space inside is called the lumen. Rough ER The rough endoplasmic reticulum (rough ER) gets its name from the bumpy ribosomes attached to its cytoplasmic surface. As these ribosomes make proteins, they feed the newly formin.
1)calcium(pH-dependent regulation of lysosomal calcium in macrophage.pdf
1)calcium(pH-dependent regulation of lysosomal calcium in macrophage.pdf
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Viral genomes may be circular, as in the polyomaviruses, or linear, as in the adenoviruses. A virus has either a DNA or an RNA genome and is called a DNA virus or an RNA . Plant viruses mostly have single-stranded RNA genomes (exception retrovirus) and bacteriophages mostly tend to have double-stranded DNA genomes Solution Viral genomes may be circular, as in the polyomaviruses, or linear, as in the adenoviruses. A virus has either a DNA or an RNA genome and is called a DNA virus or an RNA . Plant viruses mostly have single-stranded RNA genomes (exception retrovirus) and bacteriophages mostly tend to have double-stranded DNA genomes.
Viral genomes may be circular, as in the polyomaviruses, or linear, .pdf
Viral genomes may be circular, as in the polyomaviruses, or linear, .pdf
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True. gaps are the reason for electrical conductivity. Solution True. gaps are the reason for electrical conductivity..
True. gaps are the reason for electrical conductivity.Solution.pdf
True. gaps are the reason for electrical conductivity.Solution.pdf
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This is an example of a Lewis Acid. The CO2 acts like an acid because it is an electron pair acceptor (a lewis base is an electron pair donor). Solution This is an example of a Lewis Acid. The CO2 acts like an acid because it is an electron pair acceptor (a lewis base is an electron pair donor)..
This is an example of a Lewis Acid. The CO2 acts like an acid becaus.pdf
This is an example of a Lewis Acid. The CO2 acts like an acid becaus.pdf
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The Vestibular System, which is a contributed to our balance system and our sense of spatial orientation, is the sensory system that provides the dominant input about movement and equilibrioception. Vestibular sense provides information related to movement and head position.The vestibular system includes the part of the inner ear and brain that help control balance and eye movements. If the system is damaged dy disease, aging,or injury, vestibular disorders can result, and are often associated with one or more of these systoms, among others: Vertigo and dizziness Imbalance and spatial disorientation Vision disturbance Hearing changes Cognitive and / or psychological change Other symptoms The type and severity of vestibular disorder can vary considerably, and be frightening and difficult to describe. People affacted by vestibular disorders may be perceived as inattentive, overly, anxious, or seeking attention. The following is a list of systems that have been reported by people with vestibular disorders. VERTIGO AND DIZZINESS Spinning or whirling sensation; a feeling the person or world moving when it is not (vertigo) Symptoms can be present while sitting still, in specific positions, or with movement Lightheaded, floating, or rocking sensation (dizziness) BALANCE AND SPATIAL ORIENTATION Imbalance, stumbling, difficulty walking straight or when turning Clumsiness or difficulty with coordination Difficulty maintaining straight posture; head may be tilted to the side Sessitivity to change in walking surface or footwear Muscle and joint pain VISION Trouble focusing or tracking objects with the eyes; objects or words on a page seem to bounce, jump,float, or blur or may appear doubled Discomfort from busy visual environments such as traffic,crowds, stores, and patterns Sensitivity to light,glare,moving or flickering light;fluorescent lights may be especially troublesome Sensitivity to certain type of computer monitors and digital televisions Tendencyto focus on nearby objects; increased discomfort when focusing at a distance Increased night blindness; difficlty walking in the dark Poor depth perception HEARING CHANGES Hearing loss; distorted or fluctuating hearing Tinnitus Sensitivity to loud noises or environments Sudden loud sound may increase symptoms of vertigo, dizziness, or imbalance COGNITIVE Difficulty concentration and paying attention; easily distracted Forgetfulness and short- term memory lapses Confusion, disorientation,difficulty comperhending direction or instructions PSYCHOLOGICAL Loss of self-reliance, self-confidence, self-esteem Anxiety, panic, social isolation Depression The VESTIBULAR SYSTEM is a collection of structures in your inner ear that provides you with your sense of balance and an awareness of your spatial orientation, meaning a sense of whether you ear right-side up or up- side down. Your brain then integates that information with other sensory information from your body to coordinate smooth and well- timed body moveme.
The Vestibular System, which is a contributed to our balance system .pdf
The Vestibular System, which is a contributed to our balance system .pdf
ravikapoorindia
The inherent risk for an assertion about a derivative is its susceptibility to a material misstatement, assuming there are no related controls. Examples of considerations that might affect the investor\'s assessment of inherent risk for assertions about a derivative or security include the following. Auditing Standard No. 12, Identifying and Assessing Risks of Material Misstatement, requires the auditor or investor to obtain an understanding of internal control that will enable the auditor to— Solution The inherent risk for an assertion about a derivative is its susceptibility to a material misstatement, assuming there are no related controls. Examples of considerations that might affect the investor\'s assessment of inherent risk for assertions about a derivative or security include the following. Auditing Standard No. 12, Identifying and Assessing Risks of Material Misstatement, requires the auditor or investor to obtain an understanding of internal control that will enable the auditor to—.
The inherent risk for an assertion about a derivative is its suscept.pdf
The inherent risk for an assertion about a derivative is its suscept.pdf
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Empfohlen
1.The Excavata includes taxa that are photosynthetic, parasitic, symbiotic and heterotrophic. Many of the taxa lack mitochondria, and, therefore, seemed to conform to the requirements of an archaic premitochondrial ancestor of all eukaryotes. This theory, called the Archezoa Hypothesis, was created by Cavalier-Smith (1983). The former archezoa began to find homes in interesting and unexpected places. Patterson (1999) and Simpson and Patterson (2001) defined a striking structural similarity that many of the former archezoan taxa possessed, a feeding groove called an excavate. The excavate was a groove that ran longitudinally on the cell surface and was associated with at least one recurrent flagellum, which set up currents in the groove that served to concentrate suspended particles and move them to a cytostome. Simpson (2003) identified seven such groups that had such an excavate apparatus: the Core Jakobids, Malawimonas, Trimastix, Carpediemonas, Retortomonads, Diplomonads, and the Heterolobosids (amoeboflagellates). Many of the excavate taxa were mitochondriate and had clear affinities with taxa that did not bear an excavate. So, by 2003 (Simpson 2003 and Cavalier-Smith 2003b) at least 10 groups (we interpret it as 11 groups) had been identified as excavate taxa (see Table 1). Burki et al. (2008) and Hampl et al. (2009) confirmed the monophyly of the excavates by phylogenomic analyses relative to members of the other supergroups. Furthermore, the excavates appear to be a very deep-rooting group, equivalent to the unikonts (Opisthokonta), and the bikonts (Chromalveolata + Rhizaria + Archaeplastida). 2.It is very difficult to discover drug against TB sice the bacteria which is mycobacterium is thermostabile and made up of mycolic acid . An increasing evidence of multidrug resistance in TB is the major problem in developing drug against TB. The mycobacterium is able to accumulate drug and become resistant to these drug. This bacteria develop allernative mechanism to become resistant to the drug. Malaria some antimalarials can only be used in certain areas of the world because parasites are resistant to some drugs. For example, chloroquine can only be used to prevent Plasmodium falciparum in regions of South America because Plasmodium falciparum is completely resistant to chloroquine in Africa and Asia. E. ameoba histoilica Solution 1.The Excavata includes taxa that are photosynthetic, parasitic, symbiotic and heterotrophic. Many of the taxa lack mitochondria, and, therefore, seemed to conform to the requirements of an archaic premitochondrial ancestor of all eukaryotes. This theory, called the Archezoa Hypothesis, was created by Cavalier-Smith (1983). The former archezoa began to find homes in interesting and unexpected places. Patterson (1999) and Simpson and Patterson (2001) defined a striking structural similarity that many of the former archezoan taxa possessed, a feeding groove called an excavate. The excavate was a groove that ran longit.
1.The Excavata includes taxa that are photosynthetic, parasitic, sym.pdf
1.The Excavata includes taxa that are photosynthetic, parasitic, sym.pdf
ravikapoorindia
1. According to morphological species concept focus on external physical characters such as size, shape, color structure of the organism . 2. Biological species concept explains why the members of species are resemble to one another. When two organisms are breeded their genes pass into their combined offspring. 3. Phylogenetic species concept defines a species as a group having a shared and unique evolotionary history. The offsprings in the concept are parental pattern of ancestry and descent. 4. Unified species concept achieved by treating existing as separately and secondary species criteria as different line of evidence. 5. From the above quenstion species XL and XXL are showing variation in their morphology and their number of chromosome. The remaining species show variation in the colour of shell. 6. From the above infromation the correct answer is option \"e\" all the above. Solution 1. According to morphological species concept focus on external physical characters such as size, shape, color structure of the organism . 2. Biological species concept explains why the members of species are resemble to one another. When two organisms are breeded their genes pass into their combined offspring. 3. Phylogenetic species concept defines a species as a group having a shared and unique evolotionary history. The offsprings in the concept are parental pattern of ancestry and descent. 4. Unified species concept achieved by treating existing as separately and secondary species criteria as different line of evidence. 5. From the above quenstion species XL and XXL are showing variation in their morphology and their number of chromosome. The remaining species show variation in the colour of shell. 6. From the above infromation the correct answer is option \"e\" all the above..
1. According to morphological species concept focus on external phys.pdf
1. According to morphological species concept focus on external phys.pdf
ravikapoorindia
1)calcium(pH-dependent regulation of lysosomal calcium in macrophages) Pulmonary macrophages are motile cells that respond to contact with suitable surfaces or micron-sized objects by undergoing movements that lead to spreading and phagocytosis. There is evidence that interactions of actin and other proteins in the cortical cytoplasm of macrophages provide the motor power for these movements and that variations in free calcium concentrations in the cortical cytoplasm of macrophages might control their directionality (1). If the plasma membrane maintains a large electrochemical gradient of calcium between the extracellular environment and the cytoplasm, a slight alteration of its activity could result in a considerable variation of cytoplasmic free calcium concentrations. If contact of the external surface of the plasma membrane with certain surfaces were somehow coupled to the calcium gradient- maintaining activity of the membrane, the interaction could lead to changes in peripheral cytoplasmic calcium levels. We have studied calcium transport across the macrophage plasma membrane, using phagocytic vesicles. Phagocvtic vesicles arise from the internalization of plasma membrane and thus constitute a system to study easily its inner surface. Furthermore, when prepared from macrophages that have ingested oil droplets, they can be purified rapidly by flotation with good yield and in an intact state (2). Using this approach, we have characterized a high affinity MgATP-dependent calcium pump located in the inner side of the plasma membrane 2).the protein was translated using ribosomes inside the ER( The endomembrane system (endo- = “within”) is a group of membranes and organelles in eukaryotic cells that works together to modify, package, and transport lipids and proteins. It includes a variety of organelles, such as the nuclear envelope and lysosomes, which you may already know, and the endoplasmic reticulum and Golgi apparatus, which we will cover shortly. Although it\'s not technically inside the cell, the plasma membrane is also part of the endomembrane system. As we\'ll see, the plasma membrane interacts with the other endomembrane organelles, and it\'s the site where secreted proteins (like the pancreatic enzymes in the intro) are exported. Important note: the endomembrane system does not include mitochondria, chloroplasts, or peroxisomes. Let\'s take a closer look at the different parts of the endomembrane system and how they function in the shipping of proteins and lipids. The endoplasmic reticulum The endoplasmic reticulum (ER) plays a key role in the modification of proteins and the synthesis of lipids. It consists of a network of membranous tubules and flattened sacs. The discs and tubules of the ER are hollow, and the space inside is called the lumen. Rough ER The rough endoplasmic reticulum (rough ER) gets its name from the bumpy ribosomes attached to its cytoplasmic surface. As these ribosomes make proteins, they feed the newly formin.
1)calcium(pH-dependent regulation of lysosomal calcium in macrophage.pdf
1)calcium(pH-dependent regulation of lysosomal calcium in macrophage.pdf
ravikapoorindia
Viral genomes may be circular, as in the polyomaviruses, or linear, as in the adenoviruses. A virus has either a DNA or an RNA genome and is called a DNA virus or an RNA . Plant viruses mostly have single-stranded RNA genomes (exception retrovirus) and bacteriophages mostly tend to have double-stranded DNA genomes Solution Viral genomes may be circular, as in the polyomaviruses, or linear, as in the adenoviruses. A virus has either a DNA or an RNA genome and is called a DNA virus or an RNA . Plant viruses mostly have single-stranded RNA genomes (exception retrovirus) and bacteriophages mostly tend to have double-stranded DNA genomes.
Viral genomes may be circular, as in the polyomaviruses, or linear, .pdf
Viral genomes may be circular, as in the polyomaviruses, or linear, .pdf
ravikapoorindia
True. gaps are the reason for electrical conductivity. Solution True. gaps are the reason for electrical conductivity..
True. gaps are the reason for electrical conductivity.Solution.pdf
True. gaps are the reason for electrical conductivity.Solution.pdf
ravikapoorindia
This is an example of a Lewis Acid. The CO2 acts like an acid because it is an electron pair acceptor (a lewis base is an electron pair donor). Solution This is an example of a Lewis Acid. The CO2 acts like an acid because it is an electron pair acceptor (a lewis base is an electron pair donor)..
This is an example of a Lewis Acid. The CO2 acts like an acid becaus.pdf
This is an example of a Lewis Acid. The CO2 acts like an acid becaus.pdf
ravikapoorindia
The Vestibular System, which is a contributed to our balance system and our sense of spatial orientation, is the sensory system that provides the dominant input about movement and equilibrioception. Vestibular sense provides information related to movement and head position.The vestibular system includes the part of the inner ear and brain that help control balance and eye movements. If the system is damaged dy disease, aging,or injury, vestibular disorders can result, and are often associated with one or more of these systoms, among others: Vertigo and dizziness Imbalance and spatial disorientation Vision disturbance Hearing changes Cognitive and / or psychological change Other symptoms The type and severity of vestibular disorder can vary considerably, and be frightening and difficult to describe. People affacted by vestibular disorders may be perceived as inattentive, overly, anxious, or seeking attention. The following is a list of systems that have been reported by people with vestibular disorders. VERTIGO AND DIZZINESS Spinning or whirling sensation; a feeling the person or world moving when it is not (vertigo) Symptoms can be present while sitting still, in specific positions, or with movement Lightheaded, floating, or rocking sensation (dizziness) BALANCE AND SPATIAL ORIENTATION Imbalance, stumbling, difficulty walking straight or when turning Clumsiness or difficulty with coordination Difficulty maintaining straight posture; head may be tilted to the side Sessitivity to change in walking surface or footwear Muscle and joint pain VISION Trouble focusing or tracking objects with the eyes; objects or words on a page seem to bounce, jump,float, or blur or may appear doubled Discomfort from busy visual environments such as traffic,crowds, stores, and patterns Sensitivity to light,glare,moving or flickering light;fluorescent lights may be especially troublesome Sensitivity to certain type of computer monitors and digital televisions Tendencyto focus on nearby objects; increased discomfort when focusing at a distance Increased night blindness; difficlty walking in the dark Poor depth perception HEARING CHANGES Hearing loss; distorted or fluctuating hearing Tinnitus Sensitivity to loud noises or environments Sudden loud sound may increase symptoms of vertigo, dizziness, or imbalance COGNITIVE Difficulty concentration and paying attention; easily distracted Forgetfulness and short- term memory lapses Confusion, disorientation,difficulty comperhending direction or instructions PSYCHOLOGICAL Loss of self-reliance, self-confidence, self-esteem Anxiety, panic, social isolation Depression The VESTIBULAR SYSTEM is a collection of structures in your inner ear that provides you with your sense of balance and an awareness of your spatial orientation, meaning a sense of whether you ear right-side up or up- side down. Your brain then integates that information with other sensory information from your body to coordinate smooth and well- timed body moveme.
The Vestibular System, which is a contributed to our balance system .pdf
The Vestibular System, which is a contributed to our balance system .pdf
ravikapoorindia
The inherent risk for an assertion about a derivative is its susceptibility to a material misstatement, assuming there are no related controls. Examples of considerations that might affect the investor\'s assessment of inherent risk for assertions about a derivative or security include the following. Auditing Standard No. 12, Identifying and Assessing Risks of Material Misstatement, requires the auditor or investor to obtain an understanding of internal control that will enable the auditor to— Solution The inherent risk for an assertion about a derivative is its susceptibility to a material misstatement, assuming there are no related controls. Examples of considerations that might affect the investor\'s assessment of inherent risk for assertions about a derivative or security include the following. Auditing Standard No. 12, Identifying and Assessing Risks of Material Misstatement, requires the auditor or investor to obtain an understanding of internal control that will enable the auditor to—.
The inherent risk for an assertion about a derivative is its suscept.pdf
The inherent risk for an assertion about a derivative is its suscept.pdf
ravikapoorindia
Solution I ) Average inventory = $610,000 / 5 = $122000 Total Inventory = $122000 * 2 = $244000 Consumed Inventory = $244000 - $80000/2 = $204,000 Gross Profit = $610,000 - $204,000 = $406,000.
Solution I ) Average inventory = $610,000 5 = $122000Total Inven.pdf
Solution I ) Average inventory = $610,000 5 = $122000Total Inven.pdf
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1: D 2: the decrease in entropy of the system is offset by an increase in the entropy of the surroundings caused by the release of heat from the system to the surroundings Solution 1: D 2: the decrease in entropy of the system is offset by an increase in the entropy of the surroundings caused by the release of heat from the system to the surroundings.
1 D2 the decrease in entropy of the system is offset by an incr.pdf
1 D2 the decrease in entropy of the system is offset by an incr.pdf
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ReversePoem.java :- --------------------------------- public class ReversePoem { /*This programs has you display a pessimistic poem from a list of phrases*/ // and then reverse the phrases to find another more optimistic poem. public static void main(String[] args) throws Exception { //Queue object MyQueue queue = new MyQueue<>(); //Stack object MyStack stack = new MyStack<>(); //String buffer to apppend all Strings StringBuffer sb = new StringBuffer(); // Create a single String object from the 16 Strings below String set1 = \"I am part of a lost generation#and I refuse to believe that#\"; sb.append(set1); String set2 = \"I can change the world#I realize this may be a shock but#\"; sb.append(set2); String set3 = \"\'Happiness comes from within\'#is a lie, and#\"; sb.append(set3); String set4 = \"\'Money will make me happy\'#So in 30 years I will tell my children#\"; sb.append(set4); String set5 = \"they are not the most important thing in my life#\"; sb.append(set5); String set6 = \"My employer will know that#I have my priorities straight because#\"; sb.append(set6); String set7 = \"work#is more important than#family#I tell you this#\"; sb.append(set7); String set8 = \"Once upon a time#Families stayed together#\"; sb.append(set8); String set9 = \"but this will not be true in my era#\"; sb.append(set9); String set10 = \"This is a quick fix society#Experts tell me#\"; sb.append(set10); String set11 = \"30 years from now, I will be celebrating the 10th anniversary of my divorce#\"; sb.append(set11); String set12 = \"I do not concede that#I will live in a country of my own making#\"; sb.append(set12); String set13 = \"In the future#Environmental destruction will be the norm#\"; sb.append(set13); String set14 = \"No longer can it be said that#My peers and I care about this earth#\"; sb.append(set14); String set15 = \"It will be evident that#My generation is apathetic and lethargic#\"; sb.append(set15); String set16 = \"It is foolish to presume that#There is hope#\"; sb.append(set16); String finalString = sb.toString(); String itmes[] = finalString.split(\"#\"); System.out.println(\"========== Original Phrase ==============\"); for(int i = 0 ; i < itmes.length;i++){ queue.enqueue(itmes[i]); System.out.println(itmes[i]); } for(int i = 0 ; i < itmes.length;i++){ stack.push(queue.dequeue()); } System.out.println(\"========== Reverse Phrase ==============\"); for(int i = 0 ; i < itmes.length;i++){ System.out.println(stack.pop()); } /* You are given a list of phrases in Strings; the phrases are separated by pound signs: \'#\': 1. Create a single String object from this list. 2. Then, split the String of phrases into an array of phrases using the String split method. 3. Display a poem by walking through the array and displaying each phrase one per line. 4. And, at the same time, place each phrase on a MyQueue object using only the enqueue method. 5. After all the phrases have been placed on the queue, transfer the phrases from the MyQueue object to a MyS.
ReversePoem.java ---------------------------------- public cl.pdf
ReversePoem.java ---------------------------------- public cl.pdf
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NaCl + H2O Solution NaCl + H2O.
NaCl + H2OSolutionNaCl + H2O.pdf
NaCl + H2OSolutionNaCl + H2O.pdf
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Miller is US based investor and co-founder and current chairman of US investment group Legg Mason Capital Management. Miller always pick stock based of multiple valuation such as high P/E and low P/E, high price-to-book and low-price-to-book. So, he does not Pick stocks based on their fundamentals, such as high intrinsic-value stocks. So, option (D) is not part of Miller’s investment style Solution Miller is US based investor and co-founder and current chairman of US investment group Legg Mason Capital Management. Miller always pick stock based of multiple valuation such as high P/E and low P/E, high price-to-book and low-price-to-book. So, he does not Pick stocks based on their fundamentals, such as high intrinsic-value stocks. So, option (D) is not part of Miller’s investment style.
Miller is US based investor and co-founder and current chairman of U.pdf
Miller is US based investor and co-founder and current chairman of U.pdf
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Marijuana plant belongs to the genus Cannabis. It is native to the Caucasus region of eastern Europe, India, and Iran. In these regions, the plants were cultivated from ancient times. The plant grows in open and disturbed habitats in wild. The plant grows best in mild climatic conditions. Cannabis plants are dioecious. There are 3 species identified, all of which can hybridize with each other. The plant is an annual herb. It is small that grows to 2 to 5 meters, usually erect, with variable stems. Stem: Resinous pubescence, angular, hollow Leaves: basal, alternate, stipulate, long petiolate, and palmate. They are rarely single, lanceolate, serrate. Leaves are 10 cm long to 1.5 cm broad. Flowers: Monoecious or dioecious. Male flowers located in the axillae, with terminal panicles, apetalous, contain 5 petals and 5 poricidal stamens Female flowers: germinate in the axils and terminally, contain 1-ovulate ovary Fruit: brown fruit with shining achene, plain, tightly embracing the seed, fleshy endosperm and curved embryo. Habitat: Native to central and south Asia, Europe, and China. Plants adapt to soil and climatic conditions easily. Mild climatic conditions and moderate to minimum annual rainfall required. Can grow in fertile, neutral, slightly alkaline, well-drained silt or clay loams. The plants do not grow on acid, sandy soils. Propagation: Through seeds. Seeds are stored in cool and dry palce where they remain viable for about 3 years. Seeds germinate well if sown before early spring, that is, around March. Seeds germinate at low temperatures when moisture is abundant. Plants are ready for harvest in 4 – 6 months after planting, and depends on the variety cultivated. Male plants turn yellow and die whereas female plants survive until the seed ripens. Therefore, male plants can be harvested earlier than female plants. Seeds are harvested from female plants when the seeds fall off when the stem is shaken. Solution Marijuana plant belongs to the genus Cannabis. It is native to the Caucasus region of eastern Europe, India, and Iran. In these regions, the plants were cultivated from ancient times. The plant grows in open and disturbed habitats in wild. The plant grows best in mild climatic conditions. Cannabis plants are dioecious. There are 3 species identified, all of which can hybridize with each other. The plant is an annual herb. It is small that grows to 2 to 5 meters, usually erect, with variable stems. Stem: Resinous pubescence, angular, hollow Leaves: basal, alternate, stipulate, long petiolate, and palmate. They are rarely single, lanceolate, serrate. Leaves are 10 cm long to 1.5 cm broad. Flowers: Monoecious or dioecious. Male flowers located in the axillae, with terminal panicles, apetalous, contain 5 petals and 5 poricidal stamens Female flowers: germinate in the axils and terminally, contain 1-ovulate ovary Fruit: brown fruit with shining achene, plain, tightly embracing the seed, fleshy endosperm and curved embryo. Habitat: Native .
Marijuana plant belongs to the genus Cannabis. It is native to the C.pdf
Marijuana plant belongs to the genus Cannabis. It is native to the C.pdf
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Inheritence Java supports inheritance and thus, variables and methods of the superclass are inherited and can be used by the subclass. but the private members of the superclass that cannot be accessed directly from the subclass. inheritenceexample.java class Animal {//super class public Animal() { System.out.println(\"A new animal has been created!\"); } public void eat() {//super class methods eat and moves System.out.println(\"An animal eats...\"); } public void moves() { System.out.println(\"An animal movess...\"); } } class Cow extends Animal {//Cow subclass public Cow() { super();//used to invoke super class constructer System.out.println(\"A new cow has been created!\"); } @Override public void eat() { System.out.println(\"A Cow eats...\"); } @Override public void moves() { System.out.println(\"A Cow movess...\"); } } class Dog extends Animal {//sub class Dog public Dog() { super(); System.out.println(\"A new dog has been created!\"); } @Override public void eat() { System.out.println(\"A dog eats...\"); } @Override public void moves() { System.out.println(\"A dog movess...\"); } } public class inhertenceexample {//main class public static void main(String[] args) { Animal animal = new Animal(); Cow Cow = new Cow(); Dog dog = new Dog(); System.out.println(); animal.eat(); animal.moves(); Cow.eat(); Cow.moves(); dog.eat(); dog.moves(); } } output A new animal has been created! A new animal has been created! A new cow has been created! A new animal has been created! A new dog has been created! An animal eats... An animal movess... A Cow eats... A Cow movess... A dog eats... A dog movess... method overloading and method overiding same multiple method\'s with different arguments is known as method overloading There are two ways to overload the method in java By changing number of arguments By changing the data type method overloading example calculationresult.java class Calculationresult{ void mul(int a,int b){System.out.println(a*b);} void mul(int a,int b,int c){System.out.println(a*b*c);} public static void main(String args[]){ Calculationresult obj=new Calculationresult(); obj.mul(10,10,10); obj.mul(20,20); } } output 1000 400 method overiding If subclass has the same method as declared in the parent class, it is known as method overriding in java. car.java class Vehicle{ void run(){System.out.println(\"Vehicle is running\");} } class car extends Vehicle{ void run(){System.out.println(\"car is running safely\");} public static void main(String args[]){ car obj = new car(); obj.run(); }} output car is running safely Solution Inheritence Java supports inheritance and thus, variables and methods of the superclass are inherited and can be used by the subclass. but the private members of the superclass that cannot be accessed directly from the subclass. inheritenceexample.java class Animal {//super class public Animal() { System.out.println(\"A new animal has been created!\"); } public void eat() {//super class methods eat and moves System.ou.
InheritenceJava supports inheritance and thus, variables and metho.pdf
InheritenceJava supports inheritance and thus, variables and metho.pdf
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It is the temporal lobe of cerebrum. It is situated beneath the lateral fissure of brain. This part of brain is directly influence on language comprehension, visual memory, and emotion association. Solution It is the temporal lobe of cerebrum. It is situated beneath the lateral fissure of brain. This part of brain is directly influence on language comprehension, visual memory, and emotion association..
It is the temporal lobe of cerebrum. It is situated beneath the late.pdf
It is the temporal lobe of cerebrum. It is situated beneath the late.pdf
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In cat,The ductus deferens also called the vas deferens leaves the tail of the epididymis along with the testicular vessels and nerves, enters the spermatic cord. The spermatic cord enters the abdominal cavity, it contains the ductus deferens, blood vessels and nerves. The site of passage through the body wall is known as the inguinal canal. The ductus deferens of the opposite sides then converge and soon enter the urethra, which leads to the penis. Various accessory glands, which secrete the seminal fluid, are associated with the ends of the ductus deferens and adjacent part of the urethra. In the cat, a small prostate gland surrounds the point of entrance of the two ductus deferens and the adjacent urethra. At the caudal end of the pelvic canal, a pair of Cowper´s glands enter the urethral canal, but the male cat does not have a seminal vesicle as does the human male. In human , From the epididymis, the ductus deferens ascends posterior to the testes and enters the spermatic cord that connects the testes to the rest of the body. It continues with the spermatic cord,and entering the pelvic body cavity at the inguinal canal. Between the ureters and the prostate, the ductus deferens expands its diameter considerably in a region known as the ampulla before narrowing and joining with the seminal vesicles at the ejaculatory duct inside the prostate. The seminal vesicles are a pair of glands that are positioned below the urinary bladder and lateral to the vas deferens. Each vesicle consists of a single tube folded and coiled on itself, with occasional diverticula in its wall. The excretory duct of each seminal gland unites with the corresponding vas deferens to form the two ejaculatory ducts, which immediately pass through the substance of the prostate gland. The seminal vesicles secrete a significant proportion of the fluid that ultimately becomes semen. The vesicle produces a substance that causes the semen to become sticky and jelly-like after ejaculation. The thick secretions from the seminal vesicle contain proteins, enzymes, fructose, mucus, vitamin, phosphorylcholine and prostaglandins. Solution In cat,The ductus deferens also called the vas deferens leaves the tail of the epididymis along with the testicular vessels and nerves, enters the spermatic cord. The spermatic cord enters the abdominal cavity, it contains the ductus deferens, blood vessels and nerves. The site of passage through the body wall is known as the inguinal canal. The ductus deferens of the opposite sides then converge and soon enter the urethra, which leads to the penis. Various accessory glands, which secrete the seminal fluid, are associated with the ends of the ductus deferens and adjacent part of the urethra. In the cat, a small prostate gland surrounds the point of entrance of the two ductus deferens and the adjacent urethra. At the caudal end of the pelvic canal, a pair of Cowper´s glands enter the urethral canal, but the male cat does not have a seminal vesicle as.
In cat,The ductus deferens also called the vas deferens leaves the t.pdf
In cat,The ductus deferens also called the vas deferens leaves the t.pdf
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LeadCarbonate: PbCO3 is ionic compound. electrostaticforces Lead(II) iodide: PbI2 ionic compound. electrostaticforces Solution LeadCarbonate: PbCO3 is ionic compound. electrostaticforces Lead(II) iodide: PbI2 ionic compound. electrostaticforces.
LeadCarbonate PbCO3 is ionic compound. electrostaticforces.pdf
LeadCarbonate PbCO3 is ionic compound. electrostaticforces.pdf
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//********************************************************* // VowelCount.java // // This program counts the number of vowels in a string //********************************************************* import java.util.Scanner; public class VowelCount { public static void main(String[] args) { /* * declare variables to store the number of each type of vowel */ int countA = 0, countE = 0, countI = 0, countO = 0, countU = 0; Scanner scan = new Scanner(System.in); // Get the string from the user (prompt and input) System.out.println(\"Enter a string of characters:\"); String str = scan.nextLine(); // format for this part: for (int i = 0; i < str.length(); i++) { switch (str.charAt(i)) { case \'a\': case \'A\': countA++; break; case \'e\': case \'E\': countE++; break; case \'i\': case \'I\': countI++; break; case \'o\': case \'O\': countO++; break; case \'u\': case \'U\': countU++; break; default: break; } } /* * Remember: 1) condition should use method for getting string length 2) * exp (in switch) should use method for returning a character */ // Output results System.out.println(\"Number of each vowel in the string:\ a: \" + countA + \"\ e: \" + countE + \"\ i: \" + countI + \"\ o: \" + countO + \"\ u: \" + countU); } } OUTPUT: Enter a string of characters: Hello! I am Finn from the land of Ooo. Number of each vowel in the string: a: 2 e: 2 i: 2 o: 6 u: 0 Solution //********************************************************* // VowelCount.java // // This program counts the number of vowels in a string //********************************************************* import java.util.Scanner; public class VowelCount { public static void main(String[] args) { /* * declare variables to store the number of each type of vowel */ int countA = 0, countE = 0, countI = 0, countO = 0, countU = 0; Scanner scan = new Scanner(System.in); // Get the string from the user (prompt and input) System.out.println(\"Enter a string of characters:\"); String str = scan.nextLine(); // format for this part: for (int i = 0; i < str.length(); i++) { switch (str.charAt(i)) { case \'a\': case \'A\': countA++; break; case \'e\': case \'E\': countE++; break; case \'i\': case \'I\': countI++; break; case \'o\': case \'O\': countO++; break; case \'u\': case \'U\': countU++; break; default: break; } } /* * Remember: 1) condition should use method for getting string length 2) * exp (in switch) should use method for returning a character */ // Output results System.out.println(\"Number of each vowel in the string:\ a: \" + countA + \"\ e: \" + countE + \"\ i: \" + countI + \"\ o: \" + countO + \"\ u: \" + countU); } } OUTPUT: Enter a string of characters: Hello! I am Finn from the land of Ooo. Number of each vowel in the string: a: 2 e: 2 i: 2 o: 6 u: 0.
Vo.pdf
Vo.pdf
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Lithium has 3 electrons. Since an s orbital only holds two, we need both 1 s and 2 s orbitals: Li: 1s2, 2s1 Solution Lithium has 3 electrons. Since an s orbital only holds two, we need both 1 s and 2 s orbitals: Li: 1s2, 2s1.
Lithium has 3 electrons. Since an s orbital only .pdf
Lithium has 3 electrons. Since an s orbital only .pdf
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IO3- only exhibitsresonance ,since the lone pairs present on the Oxygen atoms willlocalised. Solution IO3- only exhibitsresonance ,since the lone pairs present on the Oxygen atoms willlocalised..
IO3- only exhibitsresonance ,since the lone pairs.pdf
IO3- only exhibitsresonance ,since the lone pairs.pdf
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As far as layout, you might consider: I. Introduction - Thesis: Chemistry discoveries have had a huge impact on the world/the way we live/the development of science and technology (or something to that effect) II. Pick two or three discoveries and explain them each in a paragraph. III. Explain the applications of each in a paragraph IV. Conclude to say again that chemistry discoveries have had a huge impact on the world/etc. As far as ideas of discoveries to research and discuss: 1. John Dalton describes atomic theory (1808) 2. Synthesis of Urea by Friedrich Woehler (1828) shows nonliving chemicals can create things made by living things. 3. Dmitry Mendeleyev develops periodic table (1860-1870) 4. J.J. Thomson discovers electron (1897) 5. Marie and Pierre Curie isolate radioactive compounds (1890s-1900s) 6. Ernest Rutherford discovers new atomic theory (atom is mostly empty space) through gold-foil experiment (1909) There are plenty more if you search for \'great chemistry discoveries\' on a search engine. Solution As far as layout, you might consider: I. Introduction - Thesis: Chemistry discoveries have had a huge impact on the world/the way we live/the development of science and technology (or something to that effect) II. Pick two or three discoveries and explain them each in a paragraph. III. Explain the applications of each in a paragraph IV. Conclude to say again that chemistry discoveries have had a huge impact on the world/etc. As far as ideas of discoveries to research and discuss: 1. John Dalton describes atomic theory (1808) 2. Synthesis of Urea by Friedrich Woehler (1828) shows nonliving chemicals can create things made by living things. 3. Dmitry Mendeleyev develops periodic table (1860-1870) 4. J.J. Thomson discovers electron (1897) 5. Marie and Pierre Curie isolate radioactive compounds (1890s-1900s) 6. Ernest Rutherford discovers new atomic theory (atom is mostly empty space) through gold-foil experiment (1909) There are plenty more if you search for \'great chemistry discoveries\' on a search engine..
As far as layout, you might consider I. Introdu.pdf
As far as layout, you might consider I. Introdu.pdf
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home insert animations design development Solution home insert animations design development.
homeinsertanimationsdesigndevelopmentSolutionhomeins.pdf
homeinsertanimationsdesigndevelopmentSolutionhomeins.pdf
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A. 0.6 M NaCl Solution A. 0.6 M NaCl.
A. 0.6 M NaCl .pdf
A. 0.6 M NaCl .pdf
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//Fraction.h #include #ifndef FRACTION #define FRACTION using std::istream; using std::ostream; class Fraction { private: int num; int den; public: void setFraction(int n, int d); Fraction add(const Fraction &f); Fraction sub(const Fraction &f); Fraction mul(const Fraction &f); Fraction div(const Fraction &f); int getNum() const; int getDen() const; void printFraction(); //Constructors Fraction(); Fraction(int num, int den); //Operator Overloads Fraction operator + (const Fraction &f); Fraction operator - (const Fraction &f); Fraction operator = (const Fraction&f); //Friends friend istream &operator >> (istream &input, Fraction &f); friend ostream &operator <<(ostream &output, Fraction &f); }; #endif //fraction.cpp #include #include \"Fraction.h\" using std::ostream; using std::istream; using namespace std; void Fraction::setFraction(int n, int d) { num = n; den = d; } Fraction::Fraction() { setFraction(1, 1); } Fraction::Fraction(int n, int d) { setFraction(n, d); } Fraction Fraction::add(const Fraction &f) { Fraction tmp; tmp.num = (num * f.den) + (f.num *den); tmp.den = f.den * den; return tmp; } Fraction Fraction::sub(const Fraction &f) { Fraction tmp; tmp.num = (num*f.den) - (f.num * f.den); tmp.den = f.den * den; return tmp; } Fraction Fraction::mul(const Fraction &f) { Fraction tmp; tmp.num = num *f.num; tmp.den = den *f.den; return tmp; } Fraction Fraction::div(const Fraction &f) { Fraction tmp; tmp.num = num*f.den; tmp.den = den*f.num; //Conversion if (tmp.den < 0) { tmp.num *= -1; tmp.den *= -1; } return tmp; } int Fraction::getDen() const { return den; } int Fraction::getNum() const { return num; } Fraction Fraction::operator+(const Fraction &f) { return add(f); } Fraction Fraction::operator-(const Fraction &f) { return sub(f); } Fraction Fraction::operator=(const Fraction &f) { setFraction(f.getDen(), f.getDen()); return *this; } void Fraction::printFraction() { //ostringstream output; cout << num << \" / \" << den << endl; } istream &operator >> (istream &input, Fraction &f) { cout << \"Enter a numerator\" << endl; input >> f.num; cout << \"Enter a denominator\" << endl; input >> f.den; return input; } ostream &operator << (ostream &output, Fraction &f) { f.printFraction(); return output; } //main.cpp #include #include \"Fraction.h\" using namespace std; int main() { Fraction f1; Fraction f2(1, 2); Fraction f3; Fraction f4; cin >> f1; f3 = f1 + f2; cout << \"f1: \" << f1; cout << \"f2: \" << f2; cout << \"adding f1 and f2: \" << f3; return 0; } /* output: Enter a numerator 1 Enter a denominator 3 f1: 1 / 3 f2: 1 / 2 adding f1 and f2: 5 / 6 Enter a numerator 1 Enter a denominator 5 f1: 1 / 5 f2: 1 / 2 adding f1 and f2: 7 / 10 */ Solution //Fraction.h #include #ifndef FRACTION #define FRACTION using std::istream; using std::ostream; class Fraction { private: int num; int den; public: void setFraction(int n, int d); Fraction add(const Fraction &f); Fraction sub(const Fraction &f); Fraction mul(const Fraction &f); Fraction div(const .
Fraction.h #include iostream #ifndef FRACTION #define FR.pdf
Fraction.h #include iostream #ifndef FRACTION #define FR.pdf
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d. none of above Solution d. none of above.
d. none of aboveSolutiond. none of above.pdf
d. none of aboveSolutiond. none of above.pdf
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Dear, The answer is h. Solution Dear, The answer is h..
Dear,The answer is h.SolutionDear,The answer is h..pdf
Dear,The answer is h.SolutionDear,The answer is h..pdf
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CipherDriver.java //package Unit_6; import java.util.*; public class CipherDriver { public static void main(String[] args) { int menu1, menu2; Scanner input = new Scanner(System.in); System.out.println(\"Enter (1) to encode a message\"); System.out.println(\"\ Enter (2) to decode a message\"); System.out.println(\"\ Enter (3) to exit\"); menu1 = input.nextInt(); if (menu1 == 3){ System.exit(0); } if (menu1 == 1 ){ int n; System.out.println(\"\ Enter (1) for substitution cipher\"); System.out.println(\"\ Enter (2) for shuffle cipher\"); System.out.println(\"\ Enter (3) to exit\"); menu2 = input.nextInt(); System.out.print(\"\ Enter text to be encoded: \"); Scanner encodeText = new Scanner(System.in); String encode_text = encodeText.nextLine(); if (menu2 == 3) System.exit(0); if (menu2 == 1){ System.out.print(\"\ Enter shift value: \"); n = input.nextInt(); input.nextLine(); SubstitutionCipher sub = new SubstitutionCipher(n); String encodedMessage = sub.encode(encode_text); System.out.println(\"Encode Message: \" + encodedMessage); } if (menu2 == 2){ System.out.print(\"Enter number of shuffles: \"); n = input.nextInt(); input.nextLine(); ShuffleCipher shuffleCipher = new ShuffleCipher(n); String encodedText = shuffleCipher.encode(encode_text); System.out.println(\"Encode Message: \" + encodedText); } encodeText.close(); } if (menu1 == 2){ int n; System.out.println(\"\ Enter (1) for substitution cipher\"); System.out.println(\"\ Enter (2) for shuffle cipher\"); System.out.println(\"\ Enter (3) to exit\"); menu2 = input.nextInt(); System.out.print(\"Enter text to be decode: \"); Scanner decodeText = new Scanner(System.in); String decode_text = decodeText.nextLine(); if (menu2 == 3) System.exit(0); if (menu2 == 1){ System.out.print(\"Enter shift value: \"); n = input.nextInt(); input.nextLine(); SubstitutionCipher substitution = new SubstitutionCipher(n); String decodedText = substitution.decode(decode_text); System.out.println(\"Decoded Message: \" + decodedText); } if (menu2 == 2){ System.out.print(\"Enter number of shuffles: \"); n = input.nextInt(); input.nextLine(); ShuffleCipher shuffleCipher = new ShuffleCipher(n); String decodedText = shuffleCipher.decode(decode_text); System.out.println(\"Decoded Message: \" + decodedText); } decodeText.close(); } input.close(); } } ShuffleCipher.java //package Unit_6; // Create a class ShuffleCipher that implements the interface MessageEncoder public class ShuffleCipher implements MessageEncoder, MessageDecoder { // The constructor should have one parameter called n private int n; // The constructor which takes the shuffle value public ShuffleCipher (int n){ this.n = n; } // Performs single shuffle private String shuffle(String text){ int splitLetter; if (text.length() % 2 == 0) splitLetter = text.length() / 2; else splitLetter = ((text.length() + 1) / 2); String first = text.substring(0, splitLetter); String second = text.substring(splitLetter); String shuffleText = \"\"; for(int i = 0, j = 0; i < first.
CipherDriver.javapackage Unit_6;import java.util.;public cl.pdf
CipherDriver.javapackage Unit_6;import java.util.;public cl.pdf
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Solution I ) Average inventory = $610,000 / 5 = $122000 Total Inventory = $122000 * 2 = $244000 Consumed Inventory = $244000 - $80000/2 = $204,000 Gross Profit = $610,000 - $204,000 = $406,000.
Solution I ) Average inventory = $610,000 5 = $122000Total Inven.pdf
Solution I ) Average inventory = $610,000 5 = $122000Total Inven.pdf
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1: D 2: the decrease in entropy of the system is offset by an increase in the entropy of the surroundings caused by the release of heat from the system to the surroundings Solution 1: D 2: the decrease in entropy of the system is offset by an increase in the entropy of the surroundings caused by the release of heat from the system to the surroundings.
1 D2 the decrease in entropy of the system is offset by an incr.pdf
1 D2 the decrease in entropy of the system is offset by an incr.pdf
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ReversePoem.java :- --------------------------------- public class ReversePoem { /*This programs has you display a pessimistic poem from a list of phrases*/ // and then reverse the phrases to find another more optimistic poem. public static void main(String[] args) throws Exception { //Queue object MyQueue queue = new MyQueue<>(); //Stack object MyStack stack = new MyStack<>(); //String buffer to apppend all Strings StringBuffer sb = new StringBuffer(); // Create a single String object from the 16 Strings below String set1 = \"I am part of a lost generation#and I refuse to believe that#\"; sb.append(set1); String set2 = \"I can change the world#I realize this may be a shock but#\"; sb.append(set2); String set3 = \"\'Happiness comes from within\'#is a lie, and#\"; sb.append(set3); String set4 = \"\'Money will make me happy\'#So in 30 years I will tell my children#\"; sb.append(set4); String set5 = \"they are not the most important thing in my life#\"; sb.append(set5); String set6 = \"My employer will know that#I have my priorities straight because#\"; sb.append(set6); String set7 = \"work#is more important than#family#I tell you this#\"; sb.append(set7); String set8 = \"Once upon a time#Families stayed together#\"; sb.append(set8); String set9 = \"but this will not be true in my era#\"; sb.append(set9); String set10 = \"This is a quick fix society#Experts tell me#\"; sb.append(set10); String set11 = \"30 years from now, I will be celebrating the 10th anniversary of my divorce#\"; sb.append(set11); String set12 = \"I do not concede that#I will live in a country of my own making#\"; sb.append(set12); String set13 = \"In the future#Environmental destruction will be the norm#\"; sb.append(set13); String set14 = \"No longer can it be said that#My peers and I care about this earth#\"; sb.append(set14); String set15 = \"It will be evident that#My generation is apathetic and lethargic#\"; sb.append(set15); String set16 = \"It is foolish to presume that#There is hope#\"; sb.append(set16); String finalString = sb.toString(); String itmes[] = finalString.split(\"#\"); System.out.println(\"========== Original Phrase ==============\"); for(int i = 0 ; i < itmes.length;i++){ queue.enqueue(itmes[i]); System.out.println(itmes[i]); } for(int i = 0 ; i < itmes.length;i++){ stack.push(queue.dequeue()); } System.out.println(\"========== Reverse Phrase ==============\"); for(int i = 0 ; i < itmes.length;i++){ System.out.println(stack.pop()); } /* You are given a list of phrases in Strings; the phrases are separated by pound signs: \'#\': 1. Create a single String object from this list. 2. Then, split the String of phrases into an array of phrases using the String split method. 3. Display a poem by walking through the array and displaying each phrase one per line. 4. And, at the same time, place each phrase on a MyQueue object using only the enqueue method. 5. After all the phrases have been placed on the queue, transfer the phrases from the MyQueue object to a MyS.
ReversePoem.java ---------------------------------- public cl.pdf
ReversePoem.java ---------------------------------- public cl.pdf
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NaCl + H2O Solution NaCl + H2O.
NaCl + H2OSolutionNaCl + H2O.pdf
NaCl + H2OSolutionNaCl + H2O.pdf
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Miller is US based investor and co-founder and current chairman of US investment group Legg Mason Capital Management. Miller always pick stock based of multiple valuation such as high P/E and low P/E, high price-to-book and low-price-to-book. So, he does not Pick stocks based on their fundamentals, such as high intrinsic-value stocks. So, option (D) is not part of Miller’s investment style Solution Miller is US based investor and co-founder and current chairman of US investment group Legg Mason Capital Management. Miller always pick stock based of multiple valuation such as high P/E and low P/E, high price-to-book and low-price-to-book. So, he does not Pick stocks based on their fundamentals, such as high intrinsic-value stocks. So, option (D) is not part of Miller’s investment style.
Miller is US based investor and co-founder and current chairman of U.pdf
Miller is US based investor and co-founder and current chairman of U.pdf
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Marijuana plant belongs to the genus Cannabis. It is native to the Caucasus region of eastern Europe, India, and Iran. In these regions, the plants were cultivated from ancient times. The plant grows in open and disturbed habitats in wild. The plant grows best in mild climatic conditions. Cannabis plants are dioecious. There are 3 species identified, all of which can hybridize with each other. The plant is an annual herb. It is small that grows to 2 to 5 meters, usually erect, with variable stems. Stem: Resinous pubescence, angular, hollow Leaves: basal, alternate, stipulate, long petiolate, and palmate. They are rarely single, lanceolate, serrate. Leaves are 10 cm long to 1.5 cm broad. Flowers: Monoecious or dioecious. Male flowers located in the axillae, with terminal panicles, apetalous, contain 5 petals and 5 poricidal stamens Female flowers: germinate in the axils and terminally, contain 1-ovulate ovary Fruit: brown fruit with shining achene, plain, tightly embracing the seed, fleshy endosperm and curved embryo. Habitat: Native to central and south Asia, Europe, and China. Plants adapt to soil and climatic conditions easily. Mild climatic conditions and moderate to minimum annual rainfall required. Can grow in fertile, neutral, slightly alkaline, well-drained silt or clay loams. The plants do not grow on acid, sandy soils. Propagation: Through seeds. Seeds are stored in cool and dry palce where they remain viable for about 3 years. Seeds germinate well if sown before early spring, that is, around March. Seeds germinate at low temperatures when moisture is abundant. Plants are ready for harvest in 4 – 6 months after planting, and depends on the variety cultivated. Male plants turn yellow and die whereas female plants survive until the seed ripens. Therefore, male plants can be harvested earlier than female plants. Seeds are harvested from female plants when the seeds fall off when the stem is shaken. Solution Marijuana plant belongs to the genus Cannabis. It is native to the Caucasus region of eastern Europe, India, and Iran. In these regions, the plants were cultivated from ancient times. The plant grows in open and disturbed habitats in wild. The plant grows best in mild climatic conditions. Cannabis plants are dioecious. There are 3 species identified, all of which can hybridize with each other. The plant is an annual herb. It is small that grows to 2 to 5 meters, usually erect, with variable stems. Stem: Resinous pubescence, angular, hollow Leaves: basal, alternate, stipulate, long petiolate, and palmate. They are rarely single, lanceolate, serrate. Leaves are 10 cm long to 1.5 cm broad. Flowers: Monoecious or dioecious. Male flowers located in the axillae, with terminal panicles, apetalous, contain 5 petals and 5 poricidal stamens Female flowers: germinate in the axils and terminally, contain 1-ovulate ovary Fruit: brown fruit with shining achene, plain, tightly embracing the seed, fleshy endosperm and curved embryo. Habitat: Native .
Marijuana plant belongs to the genus Cannabis. It is native to the C.pdf
Marijuana plant belongs to the genus Cannabis. It is native to the C.pdf
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Inheritence Java supports inheritance and thus, variables and methods of the superclass are inherited and can be used by the subclass. but the private members of the superclass that cannot be accessed directly from the subclass. inheritenceexample.java class Animal {//super class public Animal() { System.out.println(\"A new animal has been created!\"); } public void eat() {//super class methods eat and moves System.out.println(\"An animal eats...\"); } public void moves() { System.out.println(\"An animal movess...\"); } } class Cow extends Animal {//Cow subclass public Cow() { super();//used to invoke super class constructer System.out.println(\"A new cow has been created!\"); } @Override public void eat() { System.out.println(\"A Cow eats...\"); } @Override public void moves() { System.out.println(\"A Cow movess...\"); } } class Dog extends Animal {//sub class Dog public Dog() { super(); System.out.println(\"A new dog has been created!\"); } @Override public void eat() { System.out.println(\"A dog eats...\"); } @Override public void moves() { System.out.println(\"A dog movess...\"); } } public class inhertenceexample {//main class public static void main(String[] args) { Animal animal = new Animal(); Cow Cow = new Cow(); Dog dog = new Dog(); System.out.println(); animal.eat(); animal.moves(); Cow.eat(); Cow.moves(); dog.eat(); dog.moves(); } } output A new animal has been created! A new animal has been created! A new cow has been created! A new animal has been created! A new dog has been created! An animal eats... An animal movess... A Cow eats... A Cow movess... A dog eats... A dog movess... method overloading and method overiding same multiple method\'s with different arguments is known as method overloading There are two ways to overload the method in java By changing number of arguments By changing the data type method overloading example calculationresult.java class Calculationresult{ void mul(int a,int b){System.out.println(a*b);} void mul(int a,int b,int c){System.out.println(a*b*c);} public static void main(String args[]){ Calculationresult obj=new Calculationresult(); obj.mul(10,10,10); obj.mul(20,20); } } output 1000 400 method overiding If subclass has the same method as declared in the parent class, it is known as method overriding in java. car.java class Vehicle{ void run(){System.out.println(\"Vehicle is running\");} } class car extends Vehicle{ void run(){System.out.println(\"car is running safely\");} public static void main(String args[]){ car obj = new car(); obj.run(); }} output car is running safely Solution Inheritence Java supports inheritance and thus, variables and methods of the superclass are inherited and can be used by the subclass. but the private members of the superclass that cannot be accessed directly from the subclass. inheritenceexample.java class Animal {//super class public Animal() { System.out.println(\"A new animal has been created!\"); } public void eat() {//super class methods eat and moves System.ou.
InheritenceJava supports inheritance and thus, variables and metho.pdf
InheritenceJava supports inheritance and thus, variables and metho.pdf
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It is the temporal lobe of cerebrum. It is situated beneath the lateral fissure of brain. This part of brain is directly influence on language comprehension, visual memory, and emotion association. Solution It is the temporal lobe of cerebrum. It is situated beneath the lateral fissure of brain. This part of brain is directly influence on language comprehension, visual memory, and emotion association..
It is the temporal lobe of cerebrum. It is situated beneath the late.pdf
It is the temporal lobe of cerebrum. It is situated beneath the late.pdf
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In cat,The ductus deferens also called the vas deferens leaves the tail of the epididymis along with the testicular vessels and nerves, enters the spermatic cord. The spermatic cord enters the abdominal cavity, it contains the ductus deferens, blood vessels and nerves. The site of passage through the body wall is known as the inguinal canal. The ductus deferens of the opposite sides then converge and soon enter the urethra, which leads to the penis. Various accessory glands, which secrete the seminal fluid, are associated with the ends of the ductus deferens and adjacent part of the urethra. In the cat, a small prostate gland surrounds the point of entrance of the two ductus deferens and the adjacent urethra. At the caudal end of the pelvic canal, a pair of Cowper´s glands enter the urethral canal, but the male cat does not have a seminal vesicle as does the human male. In human , From the epididymis, the ductus deferens ascends posterior to the testes and enters the spermatic cord that connects the testes to the rest of the body. It continues with the spermatic cord,and entering the pelvic body cavity at the inguinal canal. Between the ureters and the prostate, the ductus deferens expands its diameter considerably in a region known as the ampulla before narrowing and joining with the seminal vesicles at the ejaculatory duct inside the prostate. The seminal vesicles are a pair of glands that are positioned below the urinary bladder and lateral to the vas deferens. Each vesicle consists of a single tube folded and coiled on itself, with occasional diverticula in its wall. The excretory duct of each seminal gland unites with the corresponding vas deferens to form the two ejaculatory ducts, which immediately pass through the substance of the prostate gland. The seminal vesicles secrete a significant proportion of the fluid that ultimately becomes semen. The vesicle produces a substance that causes the semen to become sticky and jelly-like after ejaculation. The thick secretions from the seminal vesicle contain proteins, enzymes, fructose, mucus, vitamin, phosphorylcholine and prostaglandins. Solution In cat,The ductus deferens also called the vas deferens leaves the tail of the epididymis along with the testicular vessels and nerves, enters the spermatic cord. The spermatic cord enters the abdominal cavity, it contains the ductus deferens, blood vessels and nerves. The site of passage through the body wall is known as the inguinal canal. The ductus deferens of the opposite sides then converge and soon enter the urethra, which leads to the penis. Various accessory glands, which secrete the seminal fluid, are associated with the ends of the ductus deferens and adjacent part of the urethra. In the cat, a small prostate gland surrounds the point of entrance of the two ductus deferens and the adjacent urethra. At the caudal end of the pelvic canal, a pair of Cowper´s glands enter the urethral canal, but the male cat does not have a seminal vesicle as.
In cat,The ductus deferens also called the vas deferens leaves the t.pdf
In cat,The ductus deferens also called the vas deferens leaves the t.pdf
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LeadCarbonate: PbCO3 is ionic compound. electrostaticforces Lead(II) iodide: PbI2 ionic compound. electrostaticforces Solution LeadCarbonate: PbCO3 is ionic compound. electrostaticforces Lead(II) iodide: PbI2 ionic compound. electrostaticforces.
LeadCarbonate PbCO3 is ionic compound. electrostaticforces.pdf
LeadCarbonate PbCO3 is ionic compound. electrostaticforces.pdf
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//********************************************************* // VowelCount.java // // This program counts the number of vowels in a string //********************************************************* import java.util.Scanner; public class VowelCount { public static void main(String[] args) { /* * declare variables to store the number of each type of vowel */ int countA = 0, countE = 0, countI = 0, countO = 0, countU = 0; Scanner scan = new Scanner(System.in); // Get the string from the user (prompt and input) System.out.println(\"Enter a string of characters:\"); String str = scan.nextLine(); // format for this part: for (int i = 0; i < str.length(); i++) { switch (str.charAt(i)) { case \'a\': case \'A\': countA++; break; case \'e\': case \'E\': countE++; break; case \'i\': case \'I\': countI++; break; case \'o\': case \'O\': countO++; break; case \'u\': case \'U\': countU++; break; default: break; } } /* * Remember: 1) condition should use method for getting string length 2) * exp (in switch) should use method for returning a character */ // Output results System.out.println(\"Number of each vowel in the string:\ a: \" + countA + \"\ e: \" + countE + \"\ i: \" + countI + \"\ o: \" + countO + \"\ u: \" + countU); } } OUTPUT: Enter a string of characters: Hello! I am Finn from the land of Ooo. Number of each vowel in the string: a: 2 e: 2 i: 2 o: 6 u: 0 Solution //********************************************************* // VowelCount.java // // This program counts the number of vowels in a string //********************************************************* import java.util.Scanner; public class VowelCount { public static void main(String[] args) { /* * declare variables to store the number of each type of vowel */ int countA = 0, countE = 0, countI = 0, countO = 0, countU = 0; Scanner scan = new Scanner(System.in); // Get the string from the user (prompt and input) System.out.println(\"Enter a string of characters:\"); String str = scan.nextLine(); // format for this part: for (int i = 0; i < str.length(); i++) { switch (str.charAt(i)) { case \'a\': case \'A\': countA++; break; case \'e\': case \'E\': countE++; break; case \'i\': case \'I\': countI++; break; case \'o\': case \'O\': countO++; break; case \'u\': case \'U\': countU++; break; default: break; } } /* * Remember: 1) condition should use method for getting string length 2) * exp (in switch) should use method for returning a character */ // Output results System.out.println(\"Number of each vowel in the string:\ a: \" + countA + \"\ e: \" + countE + \"\ i: \" + countI + \"\ o: \" + countO + \"\ u: \" + countU); } } OUTPUT: Enter a string of characters: Hello! I am Finn from the land of Ooo. Number of each vowel in the string: a: 2 e: 2 i: 2 o: 6 u: 0.
Vo.pdf
Vo.pdf
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Lithium has 3 electrons. Since an s orbital only holds two, we need both 1 s and 2 s orbitals: Li: 1s2, 2s1 Solution Lithium has 3 electrons. Since an s orbital only holds two, we need both 1 s and 2 s orbitals: Li: 1s2, 2s1.
Lithium has 3 electrons. Since an s orbital only .pdf
Lithium has 3 electrons. Since an s orbital only .pdf
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IO3- only exhibitsresonance ,since the lone pairs present on the Oxygen atoms willlocalised. Solution IO3- only exhibitsresonance ,since the lone pairs present on the Oxygen atoms willlocalised..
IO3- only exhibitsresonance ,since the lone pairs.pdf
IO3- only exhibitsresonance ,since the lone pairs.pdf
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As far as layout, you might consider: I. Introduction - Thesis: Chemistry discoveries have had a huge impact on the world/the way we live/the development of science and technology (or something to that effect) II. Pick two or three discoveries and explain them each in a paragraph. III. Explain the applications of each in a paragraph IV. Conclude to say again that chemistry discoveries have had a huge impact on the world/etc. As far as ideas of discoveries to research and discuss: 1. John Dalton describes atomic theory (1808) 2. Synthesis of Urea by Friedrich Woehler (1828) shows nonliving chemicals can create things made by living things. 3. Dmitry Mendeleyev develops periodic table (1860-1870) 4. J.J. Thomson discovers electron (1897) 5. Marie and Pierre Curie isolate radioactive compounds (1890s-1900s) 6. Ernest Rutherford discovers new atomic theory (atom is mostly empty space) through gold-foil experiment (1909) There are plenty more if you search for \'great chemistry discoveries\' on a search engine. Solution As far as layout, you might consider: I. Introduction - Thesis: Chemistry discoveries have had a huge impact on the world/the way we live/the development of science and technology (or something to that effect) II. Pick two or three discoveries and explain them each in a paragraph. III. Explain the applications of each in a paragraph IV. Conclude to say again that chemistry discoveries have had a huge impact on the world/etc. As far as ideas of discoveries to research and discuss: 1. John Dalton describes atomic theory (1808) 2. Synthesis of Urea by Friedrich Woehler (1828) shows nonliving chemicals can create things made by living things. 3. Dmitry Mendeleyev develops periodic table (1860-1870) 4. J.J. Thomson discovers electron (1897) 5. Marie and Pierre Curie isolate radioactive compounds (1890s-1900s) 6. Ernest Rutherford discovers new atomic theory (atom is mostly empty space) through gold-foil experiment (1909) There are plenty more if you search for \'great chemistry discoveries\' on a search engine..
As far as layout, you might consider I. Introdu.pdf
As far as layout, you might consider I. Introdu.pdf
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home insert animations design development Solution home insert animations design development.
homeinsertanimationsdesigndevelopmentSolutionhomeins.pdf
homeinsertanimationsdesigndevelopmentSolutionhomeins.pdf
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A. 0.6 M NaCl Solution A. 0.6 M NaCl.
A. 0.6 M NaCl .pdf
A. 0.6 M NaCl .pdf
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//Fraction.h #include #ifndef FRACTION #define FRACTION using std::istream; using std::ostream; class Fraction { private: int num; int den; public: void setFraction(int n, int d); Fraction add(const Fraction &f); Fraction sub(const Fraction &f); Fraction mul(const Fraction &f); Fraction div(const Fraction &f); int getNum() const; int getDen() const; void printFraction(); //Constructors Fraction(); Fraction(int num, int den); //Operator Overloads Fraction operator + (const Fraction &f); Fraction operator - (const Fraction &f); Fraction operator = (const Fraction&f); //Friends friend istream &operator >> (istream &input, Fraction &f); friend ostream &operator <<(ostream &output, Fraction &f); }; #endif //fraction.cpp #include #include \"Fraction.h\" using std::ostream; using std::istream; using namespace std; void Fraction::setFraction(int n, int d) { num = n; den = d; } Fraction::Fraction() { setFraction(1, 1); } Fraction::Fraction(int n, int d) { setFraction(n, d); } Fraction Fraction::add(const Fraction &f) { Fraction tmp; tmp.num = (num * f.den) + (f.num *den); tmp.den = f.den * den; return tmp; } Fraction Fraction::sub(const Fraction &f) { Fraction tmp; tmp.num = (num*f.den) - (f.num * f.den); tmp.den = f.den * den; return tmp; } Fraction Fraction::mul(const Fraction &f) { Fraction tmp; tmp.num = num *f.num; tmp.den = den *f.den; return tmp; } Fraction Fraction::div(const Fraction &f) { Fraction tmp; tmp.num = num*f.den; tmp.den = den*f.num; //Conversion if (tmp.den < 0) { tmp.num *= -1; tmp.den *= -1; } return tmp; } int Fraction::getDen() const { return den; } int Fraction::getNum() const { return num; } Fraction Fraction::operator+(const Fraction &f) { return add(f); } Fraction Fraction::operator-(const Fraction &f) { return sub(f); } Fraction Fraction::operator=(const Fraction &f) { setFraction(f.getDen(), f.getDen()); return *this; } void Fraction::printFraction() { //ostringstream output; cout << num << \" / \" << den << endl; } istream &operator >> (istream &input, Fraction &f) { cout << \"Enter a numerator\" << endl; input >> f.num; cout << \"Enter a denominator\" << endl; input >> f.den; return input; } ostream &operator << (ostream &output, Fraction &f) { f.printFraction(); return output; } //main.cpp #include #include \"Fraction.h\" using namespace std; int main() { Fraction f1; Fraction f2(1, 2); Fraction f3; Fraction f4; cin >> f1; f3 = f1 + f2; cout << \"f1: \" << f1; cout << \"f2: \" << f2; cout << \"adding f1 and f2: \" << f3; return 0; } /* output: Enter a numerator 1 Enter a denominator 3 f1: 1 / 3 f2: 1 / 2 adding f1 and f2: 5 / 6 Enter a numerator 1 Enter a denominator 5 f1: 1 / 5 f2: 1 / 2 adding f1 and f2: 7 / 10 */ Solution //Fraction.h #include #ifndef FRACTION #define FRACTION using std::istream; using std::ostream; class Fraction { private: int num; int den; public: void setFraction(int n, int d); Fraction add(const Fraction &f); Fraction sub(const Fraction &f); Fraction mul(const Fraction &f); Fraction div(const .
Fraction.h #include iostream #ifndef FRACTION #define FR.pdf
Fraction.h #include iostream #ifndef FRACTION #define FR.pdf
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d. none of above Solution d. none of above.
d. none of aboveSolutiond. none of above.pdf
d. none of aboveSolutiond. none of above.pdf
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Dear, The answer is h. Solution Dear, The answer is h..
Dear,The answer is h.SolutionDear,The answer is h..pdf
Dear,The answer is h.SolutionDear,The answer is h..pdf
ravikapoorindia
CipherDriver.java //package Unit_6; import java.util.*; public class CipherDriver { public static void main(String[] args) { int menu1, menu2; Scanner input = new Scanner(System.in); System.out.println(\"Enter (1) to encode a message\"); System.out.println(\"\ Enter (2) to decode a message\"); System.out.println(\"\ Enter (3) to exit\"); menu1 = input.nextInt(); if (menu1 == 3){ System.exit(0); } if (menu1 == 1 ){ int n; System.out.println(\"\ Enter (1) for substitution cipher\"); System.out.println(\"\ Enter (2) for shuffle cipher\"); System.out.println(\"\ Enter (3) to exit\"); menu2 = input.nextInt(); System.out.print(\"\ Enter text to be encoded: \"); Scanner encodeText = new Scanner(System.in); String encode_text = encodeText.nextLine(); if (menu2 == 3) System.exit(0); if (menu2 == 1){ System.out.print(\"\ Enter shift value: \"); n = input.nextInt(); input.nextLine(); SubstitutionCipher sub = new SubstitutionCipher(n); String encodedMessage = sub.encode(encode_text); System.out.println(\"Encode Message: \" + encodedMessage); } if (menu2 == 2){ System.out.print(\"Enter number of shuffles: \"); n = input.nextInt(); input.nextLine(); ShuffleCipher shuffleCipher = new ShuffleCipher(n); String encodedText = shuffleCipher.encode(encode_text); System.out.println(\"Encode Message: \" + encodedText); } encodeText.close(); } if (menu1 == 2){ int n; System.out.println(\"\ Enter (1) for substitution cipher\"); System.out.println(\"\ Enter (2) for shuffle cipher\"); System.out.println(\"\ Enter (3) to exit\"); menu2 = input.nextInt(); System.out.print(\"Enter text to be decode: \"); Scanner decodeText = new Scanner(System.in); String decode_text = decodeText.nextLine(); if (menu2 == 3) System.exit(0); if (menu2 == 1){ System.out.print(\"Enter shift value: \"); n = input.nextInt(); input.nextLine(); SubstitutionCipher substitution = new SubstitutionCipher(n); String decodedText = substitution.decode(decode_text); System.out.println(\"Decoded Message: \" + decodedText); } if (menu2 == 2){ System.out.print(\"Enter number of shuffles: \"); n = input.nextInt(); input.nextLine(); ShuffleCipher shuffleCipher = new ShuffleCipher(n); String decodedText = shuffleCipher.decode(decode_text); System.out.println(\"Decoded Message: \" + decodedText); } decodeText.close(); } input.close(); } } ShuffleCipher.java //package Unit_6; // Create a class ShuffleCipher that implements the interface MessageEncoder public class ShuffleCipher implements MessageEncoder, MessageDecoder { // The constructor should have one parameter called n private int n; // The constructor which takes the shuffle value public ShuffleCipher (int n){ this.n = n; } // Performs single shuffle private String shuffle(String text){ int splitLetter; if (text.length() % 2 == 0) splitLetter = text.length() / 2; else splitLetter = ((text.length() + 1) / 2); String first = text.substring(0, splitLetter); String second = text.substring(splitLetter); String shuffleText = \"\"; for(int i = 0, j = 0; i < first.
CipherDriver.javapackage Unit_6;import java.util.;public cl.pdf
CipherDriver.javapackage Unit_6;import java.util.;public cl.pdf
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Solution I ) Average inventory = $610,000 5 = $122000Total Inven.pdf
Solution I ) Average inventory = $610,000 5 = $122000Total Inven.pdf
1 D2 the decrease in entropy of the system is offset by an incr.pdf
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Miller is US based investor and co-founder and current chairman of U.pdf
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Marijuana plant belongs to the genus Cannabis. It is native to the C.pdf
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InheritenceJava supports inheritance and thus, variables and metho.pdf
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It is the temporal lobe of cerebrum. It is situated beneath the late.pdf
It is the temporal lobe of cerebrum. It is situated beneath the late.pdf
In cat,The ductus deferens also called the vas deferens leaves the t.pdf
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LeadCarbonate PbCO3 is ionic compound. electrostaticforces.pdf
LeadCarbonate PbCO3 is ionic compound. electrostaticforces.pdf
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Lithium has 3 electrons. Since an s orbital only .pdf
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As far as layout, you might consider I. Introdu.pdf
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homeinsertanimationsdesigndevelopmentSolutionhomeins.pdf
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A. 0.6 M NaCl .pdf
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d. none of aboveSolutiond. none of above.pdf
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Dear,The answer is h.SolutionDear,The answer is h..pdf
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