Two skaters stand on friction-less ice. Ricky is more massive than Lucy. Ricky p

Question

Two skaters stand on friction-less ice. Ricky is more massive than Lucy. Ricky pushes off from Lucy and they move away from each other. Which statement below is most correct?

HINT: The total momentum of the system is zero before they push off, so the total momentum after the push must also be zero. Compare the two masses and the first hint statement and think about what this does to the velocities.

CHOOSE ONE:

A) Ricky and Lucy will have the same momentum and speed after they push off.

B) Ricky and Lucy will have the same momentum, but Ricky will have a larger speed.

C) Ricky and Lucy will have the same momentum, but Lucy will have a larger speed.

D) Ricky will have a higher speed and therefore a higher momentum than Lucy.

E) Lucy will have a higher speed and therefore a higher momentum than Ricky.

F) Ricky and Lucy will have the same speed, but since Ricky is more massive he will have more momentum.

Explanation / Answer

Using momentum conservation

Pi = Pf

Pi = MR*UR + ML*UL

UR = initial velocity of Ricky

UL = initial velocity of Lucy

Since UR & UL = 0 m/sec

Pi = 0 kg-m/sec

So from momentum conservation

Pf = 0

MR*VR + ML*VL = 0

MR*VR = -ML*VL

(Above relation means momentum of Ricky and Lucy will be same)

VL/VR = -(MR/ML)

Given that

MR > ML

MR/ML > 1

from above relation

VL/VR > 1

VL > VR

So speed of Lucy will have a larger speed than Ricky

Correct option is C.

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