Transcript Physics Bingo - District 158

PHYSICS BINGO
2nd Semester Final Exam Review
Rules for Bingo
 Answer the problem presented.
 Locate and mark the corresponding answer on
your board.
 You must get 5 across, down or diagonal to win.
 1st person to call BINGO each round will win some
candy!
Problem #1
Acceleration is a change in
this…..
Problem #2
A car starts from rest and
reaches 33m/s in 11 seconds.
Calculate the acceleration.
PROBLEM #3
If you were given a v-t graph,
you would need to calculate
this to find acceleration.
PROBLEM #4
The ONLY force that acts on a
projectile is……
PROBLEM #5
If an object has a Vx of
5m/s and is in the air for 7
seconds, this is the
horizontal range of the
projectile.
PROBLEM #6
What type of force is also the
weight of the object?
PROBLEM #7
Which of Newton’s laws
states that for every action
there is an equal but
opposite reaction.
PROBLEM #8
Two objects (A and B) of the
same mass are pushed. Object
A is pushed with 15N of force
and Object B is pushed with 6N.
Which experiences more
acceleration?
PROBLEM #9
This type of energy exists
when friction or an
impact occurs.
PROBLEM #10
What is the unit for
energy?
PROBLEM #11
According to the
nd
2
law, if
you increase the mass of an
object and keep the Fnet the
same, the acceleration
___________________.
PROBLEM #12
The “k-value” in the elastic
energy equation tells you
about the ___________ of the
spring.
PROBLEM #13
A pencil rolls off a
student’s desk. It takes
0.4 seconds for it to hit
the ground. What is the
height of the desk?
PROBLEM #14
Calculate the kinetic
energy of a stock car that
has a mass of 1545kg and
is moving with a velocity
of 57 m/s.
PROBLEM #15
The slope on a _____-time
graph will give you the
velocity of the object.
PROBLEM #16
The last two-digits of the year
Mrs. Henk graduated high
school and the number for
her favorite NASCAR driver is
___________.
PROBLEM #17
If an object is going
forward and slowing
down, this is the sign for
the acceleration.
PROBLEM #18
Lance Armstrong is training
for the Tour de France. He
accelerates his bike from rest
to 50 m/s in 13 seconds.
Determine his displacement
during this time.
PROBLEM #19
A high school track and field
athlete prepares to throw a shot
put. If the mass of the shot is 5.45
kg.
 If the athlete applies 16N of force
on the shot put ball, how much
acceleration does it experience?

PROBLELM #20
This type of force is often
referred to as a “support force.”
It is always perpendicular to the
surface that the object is resting
on.
PROBLEM #21
At the tallest spot on a roller
coaster, the riders experience
the most of this type of energy.
PROBLEM #22
Calculate the gravitational
energy for a 57kg passenger
on a plane that is 10,500
meters off of the ground.
PROBLEM #23
 This is the only type of energy that
we studied that does not have its
own specific equation.
PROBLEM #24
A baseball is hit upward. If it
reaches a height (d) of 14m,
how much time is it in the
air?
PROBLEM #25
Which of Newton’s laws states
that “objects in motion and
objects at rest will stay in the
same state unless they
experience a net force greater
than zero?
PROBLEM # 26
A ______ is a push or a pull.
PROBLEM #27
The trig function that you use
when the side you are solving
for is adjacent to the angle is….
PROBLEM #28
The
st
1
car Mrs. Henk owned
was a ___________.
PROBLEM #29
When a string, rope or wire is
stretched, the type of force is
called ____________.
PROBLEM #30
 The law that allows us to calculate
the amount of force between
charges is called…