Two skydivers are holding on to each other while falling straight down at a comm

Question

Two skydivers are holding on to each other while falling straight down at a common terminal speed of 54.70 m/s. Suddenly, they push away from each other. Immediately after separation, the first skydiver (who has a mass of 83.80 kg) has the following velocity components (with "straight down" corresponding to the positive z-axis): v_1, x = 4.430 m/s v_1, y = 4.250 m/s v_1, z = 54.70 m/s What are the x-and y-components of the velocity of the second skydiver, whose mass is 52.20 kg, immediately after separation? What is the change in kinetic energy of the system?

Explanation / Answer

We need to use momentum conservation law.
Momentum of the system is conserved in any direction.

Let's denote m1 mass of the first skydiver , m2 - second

When they fall together

Mx = 0, My = 0

When they push away from each other

Mx = m1 * Vx - m2 * Vx2 = 0

Vx2 = m1 * Vx / m2 = 83.8*4.43/52.2=7.069 m/sec

My = m1 * Vy - m2 * Vy2 = 0

Vy2 = m1 * Vy / m2=83.8*4.25/52.2=6.78 m/sec

E1 - kinetic energy before separation

E1 = (m1+m2)*V^2/2=1/2*(83.8+52.2)*54.7^2=202714.0975 J

E2 - kinetic energy after separation

You can finish youself. You have to calculate their velocities as

V1 = sqrt (Vz^2 + Vx^2 + Vy^2

The answer b) will be E2 - E1

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