Day 6 - Momentum Quiz Review 1
Presentation
•
Physics
•
11th - 12th Grade
•
Practice Problem
•
Medium
Standards-aligned
Harmandeep Kaur
Used 24+ times
FREE Resource
3 Slides • 17 Questions
1
Momentum - the product of an object’s mass and velocity. The more momentum an object has, the harder (more force) to bring it to rest.
p - momentum (kg m/s)
m - mass (kg)
v - velocity (m/s)
2
Multiple Choice
What is p in equation p = mv
power
momentum
mass
velocity
3
Total Momentum
Each object in the system has its own momentum, the sum of each object’s momentum is equal to the total momentum of the system
4
Open Ended
How would you find total momentum of the system?
5
Conservation of momentum
Conservation of Momentum:
The total momentum in a system will remain the same when two objects interact as long as there is no outside forces acting on the system.
The change in momentum of one object is balanced by the change in momentum of the other object so the total momentum remains constant.
mA.vAi + mB.vBi = mA.vAf + mB.vBf
6
Multiple Choice
Total momentum of the system is always conserved
True
False
7
Multiple Choice
Momentum of each object is always conserved
True
False
8
Open Ended
Explain all the variables in equation
mAvAi+mBvBi = mAvAf+mBvBf
9
Multiple Choice
If two objects stick together after collision, then their final velocity must be
zero
same
10
Multiple Choice
To calculate impulse, you calculate
momentum
change in momentum
velocity
mass
11
Multiple Select
Equation for change in momentum is...
Select all that apply
p = mv
Δp = mΔv
Δp = FΔt
Δp = pf−pi
12
Multiple Select
Equation for Impulse is...
Select all that apply
I = mv
I = mΔv
I= FΔt
I = pf−pi
13
Poll
How prepared do you feel after this review
Well prepared
prepared
somewhat prepared
not at all
14
Multiple Choice
Read the following and discuss with your partner. If your partner is not up to that slide then wait for your partner to finish previous slides. Discuss it with your partner and select a skill below that you need for this concept. Select all that apply.
Mass and Velocity are the two variables that determine the amount of momentum. So large objects moving fast have the most momentum.
Be able to calculate the momentum of an object using the equation p = mv
Be able to identify the objects interacting in a system
1)Be able to calculate the total momentum of the objects in a system ptotal = pA + pB
2)Apply the conservation of momentum principle to calculate velocity of objects before or after collisions.
Be able to calculate the change in momentum Δp = m Δv or Δp = pf - pi
Be able to calculate the impulse an object experiences Impulse = Ft
15
Multiple Choice
Read the following and discuss with your partner. If your partner is not up to that slide then wait for your partner to finish previous slides. Discuss it with your partner and select a skill below that you need for this concept. Select all that apply.
The total momentum in a system is the sum of each object’s momentum. Momentum is a vector so positive and negative (direction) is important.
Be able to calculate the momentum of an object using the equation p = mv
Be able to identify the objects interacting in a system
1)Be able to calculate the total momentum of the objects in a system ptotal = pA + pB
2)Apply the conservation of momentum principle to calculate velocity of objects before or after collisions.
Be able to calculate the change in momentum Δp = m Δv or Δp = pf - pi
Be able to calculate the impulse an object experiences Impulse = Ft
16
Multiple Choice
Read the following and discuss with your partner. If your partner is not up to that slide then wait for your partner to finish previous slides. Discuss it with your partner and select a skill below that you need for this concept. Select all that apply.
Momentum is directly proportional to both mass and velocity
Be able to calculate the momentum of an object using the equation p = mv
Be able to identify the objects interacting in a system
1)Be able to calculate the total momentum of the objects in a system ptotal = pA + pB
2)Apply the conservation of momentum principle to calculate velocity of objects before or after collisions.
Be able to calculate the change in momentum Δp = m Δv or Δp = pf - pi
Be able to calculate the impulse an object experiences Impulse = Ft
17
Multiple Choice
Read the following and discuss with your partner. If your partner is not up to that slide then wait for your partner to finish previous slides. Discuss it with your partner and select a skill below that you need for this concept. Select all that apply.
Objects that are connected, stuck together, or attached will have the same velocity
Be able to calculate the momentum of an object using the equation p = mv
Be able to identify the objects interacting in a system
1)Be able to calculate the total momentum of the objects in a system ptotal = pA + pB
2)Apply the conservation of momentum principle to calculate velocity of objects before or after collisions.
Be able to calculate the change in momentum Δp = m Δv or Δp = pf - pi
Be able to calculate the impulse an object experiences Impulse = Ft
18
Multiple Choice
Read the following and discuss with your partner. If your partner is not up to that slide then wait for your partner to finish previous slides. Discuss it with your partner and select a skill below that you need for this concept. Select all that apply.
When objects originally have zero momentum and then push off each other, they end up with the same momentum in opposite directions in order to conserve their zero total momentum.
Be able to calculate the momentum of an object using the equation p = mv
Be able to identify the objects interacting in a system
1)Be able to calculate the total momentum of the objects in a system ptotal = pA + pB
2)Apply the conservation of momentum principle to calculate velocity of objects before or after collisions.
Be able to calculate the change in momentum Δp = m Δv or Δp = pf - pi
Be able to calculate the impulse an object experiences Impulse = Ft
19
Multiple Select
Read the following and discuss with your partner. If your partner is not up to that slide then wait for your partner to finish previous slides. Discuss it with your partner and select a skill below that you need for this concept. Select all that apply.
1) An impulse is equal to a change in momentum and is caused by a force acting during a period of time.
2)When two isolated objects interact, the change in momentum (impulse) of one object will be equal but opposite to the change in momentum (impulse) of the second object.
3)When two objects interact, the total momentum before their interaction has to be the same as their total momentum after their interaction.
Be able to calculate the momentum of an object using the equation p = mv
Be able to identify the objects interacting in a system
1)Be able to calculate the total momentum of the objects in a system ptotal = pA + pB
2)Apply the conservation of momentum principle to calculate velocity of objects before or after collisions.
Be able to calculate the change in momentum Δp = m Δv or Δp = pf - pi
Be able to calculate the impulse an object experiences Impulse = Ft
20
Multiple Choice
Read the following and discuss with your partner. If your partner is not up to that slide then wait for your partner to finish previous slides. Discuss it with your partner and select a skill below that you need for this concept. Select all that apply.
The change in a variable is the final value minus the initial value
Be able to calculate the momentum of an object using the equation p = mv
Be able to identify the objects interacting in a system
1)Be able to calculate the total momentum of the objects in a system ptotal = pA + pB
2)Apply the conservation of momentum principle to calculate velocity of objects before or after collisions.
Be able to calculate the change in momentum Δp = m Δv or Δp = pf - pi
Be able to calculate the impulse an object experiences Impulse = Ft
Momentum - the product of an object’s mass and velocity. The more momentum an object has, the harder (more force) to bring it to rest.
p - momentum (kg m/s)
m - mass (kg)
v - velocity (m/s)
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