Answer:
Explanation:
Let at a height h below the top , normal reaction of surface becomes zero and skier becomes airborne . Let his position is making angle θ with the vertical . Let the radius of the hemisphere be R .
Then
h = R - R cosθ
At the point where the skier becomes airborne
Centripetal force = component of his weight towards the centre of the hemisphere
mv² / R = mg cosθ , m is mass of the skier , v is his velocity at the time of being airborne.
v² = 2gh
= 2gR(1 - cosθ )
Putting this equation in the equation above
m 2gR(1 - cosθ ) / R = mg cosθ
2- 2 cosθ = cosθ
cosθ = 2 / 3
h = R - R cosθ
= R ( 1 - 2 / 3 )
= R / 3 .
