What about the (more common) glancing blow?

Remember:contact forces are NORMAL forces!

To understand what effect this has, consider bouncing a ball off the ground…

A glancing blow with the ground is like partly traveling straight down

into it and, at the same time, trying to travel past it.

Normal Force

Weight

The unbalanced (net) force is parallelto the inclined surface of the road!

Exactly the direction we know a carleft in neutral will start to coast!

A glancing blow with the ground is like partly traveling straight down

into it and, at the same time, trying to

travel past it.

This part of its motion(the downward component of its velocity) is reversedby the collision, just like a head-on collision event.

The horizontalcomponent of its

motion is unaffected!

Remember:contact forces are NORMAL forces!

The component heading right toward the center of mass is reversed by the blow!

While the perpendicular

component continues

unchanged!

Here’s the direction it rebounds!

Before After

Two billiard balls undergo the glancing (not head-on) collision shown above

(some spin must have been placed on the cue ball, but you don’t have to worry about that

detail). What is the direction of the target ball after the collision?

mv

This, one of the final pieces of momentum, plus what other piece

will still total to the same momentum we started with?

When an object explodes or breaks apart::

Is this ever possible (one half remains at restbehind…the other flies off in one direction)?

Why?

Deep in free space?

Explosion

Before the explosion:

vo = 0

m1 m2

v1 v2

After the explosion:

Mass, M

Initially: P = 0 because v0=0

Finally: P = m1v1 + m2v2

which still must = 0

which means: m1v1 = m2v2

1 2

Before fission:

After fission:

Which fragment has a greater momentum?

Uranium nucleus

speed?

A) 1B) 2C) both the same

A stationary uranium nucleusundergoes radioactive fission.

p = 0 pgas procket

pi = 0 = pf pgas = – procket= pgas + procket

pi = 0 = pf = prifle + pbullet prifle = – pbullet

A cannon rests on a railroad flatcar with a total mass of 1000 kg. When a 10 kg cannon ball is fired at a speed of 50 m/sec, as shown, what is the speed of the flatcar?

A) 0 m/sB) ½ m/s to the rightC) 1 m/s to the leftD) 20 m/s to the right

1000 kg flatbed car at rest, loaded with 40 kg of ammo and carrying a 90 kg rifleman.

The rifleman fires a 4 gram bullet at 965 m/secstraight out the back of the car. The entirecar recoils how fast?

car)1130()/965)(004.0( vkgsmkg +=0

initial momentum

final momentum

0 mbulletvbullet + mcarvcar

kgsmkgv 1130/)/965)(004.0(car

−=

= 0.0034 m/sec = 3.4 mm/sec

But what about by the time he has used up his last shell, firing his 10,000th time?

400 m/sec

A bullet’s muzzle velocity (the speed it leaves the rifle with and races away from its rifle barrel) is 400 m/sec.

But did I mention the muzzle is onboard a flatbed car traveling 20 m/sec?

20 m/sec

A cannon rides a railroad flatcar, traveling to the right at 50 m/sec. It then fires a 10 kg cannon ball with a muzzle velocity of 50 m/sec to the left. What horizontal speed do observers stationary on the ground observe for this bullet?

A) 0 m/sec (it simply drops straight down to the ground).B) 25 m/sec.C) 50 m/sec.D) 75 m/sec.E) 100 m/sec.

50 m/sec

A cannon rides a railroad flatcar, traveling to the right at 50 m/sec. It then fires a 10 kg cannon ball with a muzzle velocity of 50 m/sec to the left. What affect does this have on the speed of the flatcar?

A) The car speeds up.B) The speed of the car

does not change.C) The car slows down.

50 m/sec

mballvball + Mcarvcar = mballv'ball + Mcarv'car

50 m/sec

both had the same initial velocity = 50 m/sec

the ball leaves the muzzle with v=0 in the

earth’s reference frame

(mball+ Mcar)50 m/sec = Mcarv'car

( 1010 kg )50 m/sec = (1000 kg)v'car

v'car = 50500 kg·m/sec / 1000 kg

v'car = 50.500 m/sec

A bomb at rest explodes into four fragments. The momentum vectors for three of the fragments are shown. Which arrow below best represents the momentum vector of the fourth fragment?

?

No external forces act on the bomb, so its momentum must be conserved: the total momentum before the explosion is zero, so total momentum after must also be zero.

?

An explosive chargeseparates rocket stages

high in earth’s atmosphere.

Which best represent the trajectories of the stages?

AB

C

Which best represents its streaming fragments?

An artillery shell bursts at the peak of its trajectory.

A B

CD

This, one of the final pieces of momentum, plus what other piece

will still total to the same momentum we started with?

SOME ANSWERS

Question 1

Question 2

Which fragment has a greater momentum? C) both the same

speed? A) 1Question 3

Same momentem! Total momentum before fission is zero, so total after must still be zero (no external forces so momentum is conserved). Since momentum is a vector, fragments 1 and 2 must have equal and opposite momenta. Since fragment 1 has a smaller mass, it must have greater speed since v = p / m.

B) ½ m/s to the rightQuestion 4

€

0 = (10kg)(50m /sec) + (1000kg) ′ v car

A) 0 m/sec (it simply drops straight down to the ground).

Question 5

A) The car speeds up.Question 6 As shown on the slide that follows this question.

No external forces act on the bomb, so its momentum must be conserved: the total momentum before the explosion is zero, so total momentum after must also be zero.

Question 7

CQuestion 8 The explosive charge both slows down the discardedfuel stage (dropping its trajectory) and speeds up thecapsule (raising its trajectory).

DQuestion 9 You may be used to watching fireworks, which look an awful lot like A. However those are shot straight up and timed to got off near the peak of their trajectory.