This document contains questions about magnetism, electricity, and circuits. It asks about the behavior of magnets near each other, materials magnets are attracted to, and how magnetic force can travel. Regarding electricity, it asks what materials conduct electricity, how circuits work, and how to light bulbs in different circuit configurations. It prompts the reader to design their own experiment to test a question about magnetism or electricity.
1.
Magnetism
• How
do
magnets
act
when
they’re
close
to
one
another?
Why
do
you
think
that
happens?
• What
materials
are
magnets
attracted
to?
How
could
you
prove
that?
• What
happens
when
you
put
one
magnet
on
top
of
a
desk
and
another
under
the
desk
lid?
Why
does
this
happen?
• What
materials
can
magnetic
force
not
travel
through?
Why
do
you
think
this
happens?
Electricity
• What
materials
let
electricity
flow
through
them?
What
are
they
called?
What
are
they
made
from?
How
can
you
test
if
a
material
will
let
electricity
flow
through
it?
What
are
materials
that
don’t
let
electricity
pass
through
them
called?
What
are
they
made
from?
• How
does
electricity
flow
through
a
circuit?
• How
can
you
light
up
a
light
bulb?
What’s
important
to
make
the
light
bulb
work
in
a
circuit?
What
do
the
different
parts
of
the
circuit
(components)
do?
• How
can
you
make
two
light
bulbs
light
up
in
a
circuit?
• How
can
you
make
two
light
bulbs
shine
brightly
in
a
circuit?
What
is
the
difference
between
the
two
circuits?
Why
do
the
light
bulbs
not
light
up
with
the
same
brightness
in
the
two
circuits?
Create
your
own
questions
to
test:
• Think
of
a
question
that
you
would
like
to
investigate.
• Make
sure
your
question
can
be
tested
using
an
experiment.
It
should
not
be
a
question
that
you
can
answer
yes
or
no.
It
should
not
be
a
question
that
can
be
answered
by
looking
in
a
book
or
researching
the
topic.
• What
materials
will
you
need?
• How
will
you
set
up
the
experiment?
• How
will
you
make
sure
the
results
are
clear?
Remember
you
should
only
change
one
thing
(variable)
at
a
time.