You and a friend are sitting on skateboards on the top of a hill. You are in fro

Question

You and a friend are sitting on skateboards on the top of a hill. You are in front of your friend and your friend holds onto you from behind. The hill has a 20% grade to it. The coefficient of rolling friction for you is r = 0.2 and the coefficient of rolling friction for your friend is r = 0.15. You have a mass of mA = 80 kg whereas your friend’s mass is mB = 100 kg. (a) How long does it take for the two of you to roll 50 m down the hill? (b) How fast are you traveling when you reach the bottom of the hill?

Explanation / Answer

The hill has 20% grade. It means the slope angle = Inverse Tangent (Grade / 100) = 11 degrees =

The force acting on person A could be calculated using the formula :   fs = µr N = µr m g sin

Since f = ma = µr m g sin

Acceleration of person A =   80 x a = 0.2 x 80 x sin 11

a = 0.2 x 0.99 = 0.198

Acceleration of person B = 100 x a = 0.15 x 100 x Sin 11

a = 0.15 x 0.99 = 0.149

Acceleration of two persons = average acceleration of both persons A and B = 0.174 m / s2

Time taken by both persons to reach 50m down the hill could be calculated by using the formula :

S = ut + (1/2) a t2 .

The initial velocity = u = 0 m/s

Hence, 50 = 0.5 x 0.174 x t2

t = 23.97 sec.

Velocity of person A and B is the same at the bottom of the hill because they hold each other.

V = S / t = 50/23.97 = 2.085 m/s

Related Questions

Navigate

• Browse (All)
• Browse Y
• Subjects

Integrity-first tutoring: explanations and feedback only — we do not complete graded work. Learn more.