Physics 2210 Fall Semester 2014belz/phys2210/lecture11.pdfPhysics 2210 Fall Semester 2014. Today's Concepts: a) Elastic Collisions b) Inelastic Collisions ... bounces straight back
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Lecture 11: Conservation of Momentum
Physics 2210Fall Semester 2014
Today's Concepts:a) Elastic Collisionsb) Inelastic Collisions
Mechanics Lecture 8, Slide 2
Unit 11: Prelecture Feedback
Mechanics Lecture 11, Slide 3
● Conservation laws give me trouble in general. Give more details.
● Can you explain how it is possible to find the velocity of a mass that is blown up in space?
● Not confident about box and ball collisions.
● Problems similar to homework.
Q: How did the chicken cross the frictionless road?
Q: How did the chicken cross the frictionless road?
A: It laid an egg and threw it backwards
Mechanics Lecture 11, Slide 6
What is the different between conservation of momentum and conservation of energy? How do I know if the momentum is conserved or
energy is conserved?
Momentum (Prelecture 11)
Energy (Prelecture 8)
Two Kinds of Balls...
Bouncy (“elastic”) at room temperature
Not bouncy (“inelastic”) at room temperature
Mechanics Lecture 11, Slide 8
p1
p2
p2
p1
pinit
pfinal
θ
Homework Problem
Bombs Bursting in Air
M, V
m2, v
2
m1, v
1
1
Mechanics Lecture 11, Slide 10
CheckPoint
A) Yes, and it moves to the right.
B) Yes, and it moves to the left.
C) No, it remains in place.
Left Right
Suppose you are on a cart initially at rest that rides on a frictionless track. If you throw a ball off the cart towards the left, will the cart be put into motion?
Mechanics Lecture 11, Slide 11
A) Yes, and it moves to the right.
B) Yes, and it moves to the left.
C) No, it remains in place.
Left Right
CheckPointSuppose you are on a cart which is initially at rest that rides on a frictionless track. You throw a ball at a vertical surface that is firmly attached to the cart. If the ball
bounces straight back as shown in the picture, will the cart be put into motion after the ball bounces back from the surface?
Mechanics Lecture 11, Slide 12
A) Yes, and it moves to the right.
B) Yes, and it moves to the left.
C) No, it remains in place.
Left Right
CheckPointSuppose you are on a cart which is initially at rest that rides on a frictionless track. You throw a ball at a vertical surface that is firmly attached to the cart. If the ball
bounces straight back as shown in the picture, will the cart be put into motion after the ball bounces back from the surface?
Mechanics Lecture 11, Slide 13
A) Yes, and it moves to the right.
B) Yes, and it moves to the left.
C) No, it remains in place.
Left Right
CheckPointSuppose you are on a cart which is initially at rest that rides on a frictionless track. You throw a ball at a vertical surface that is firmly attached to the cart. If the ball
bounces straight back as shown in the picture, will the cart be put into motion after the ball bounces back from the surface?
“Newton's Cradle” Demo
Mechanics Lecture 11, Slide 15
Two balls of equal mass are thrown horizontally with the same initial velocity. They hit identical stationary boxes
resting on a frictionless horizontal surface. The ball hitting box 1 bounces back, while the ball hitting box 2 gets stuck.
Which box ends up moving faster?
A) Box 1 B) Box 2 C) same
CheckPoint
1 2
Mechanics Lecture 11, Slide 16
Two balls of equal mass are thrown horizontally with the same initial velocity. They hit identical stationary boxes
resting on a frictionless horizontal surface. The ball hitting box 1 bounces back, while the ball hitting box 2 gets stuck.
Which box ends up moving faster?
A) Box 1 B) Box 2 C) same
CheckPoint
1 2
A) AB) B
C) They both have the same chance.Mechanics Lecture 11, Slide 17
Flashcard Question
A B
Two equal-mass balls swing down and hit identical bricks while traveling at identical speeds. Ball A bounces back, but ball B just stops when it hits the
brick. Which ball is more likely to knock the brick over?
A) AB) B
C) They both have the same chance.Mechanics Lecture 11, Slide 18
Flashcard Question
A B
Two equal-mass balls swing down and hit identical bricks while traveling at identical speeds. Ball A bounces back, but ball B just stops when it hits the
brick. Which ball is more likely to knock the brick over?
Mechanics Lecture 11, Slide 19
H
mM
A projectile of mass m moving horizontally with speed v strikes a stationary mass M
suspended by strings of length L. Subsequently, m + M rise to a height of H.
Given H, what is the initial speed v of the projectile?
v
Example: Ballistic Pendulum
Colliding Box Cars
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