Answer:
a) 48.42J
b) The velocity at the bottom of the slide will be 0.307m/s
Explanation:
There is no conservation of energy when friction is invoved. Since the child is accelerating at a constant velocity and the force on the slide is in the same direction as the direction of the motion. The net force of the child is balanced
FN = W cos theta
FN = 228 × cos44= 164.0N
◇ET = Uk × FN× d
Where UK = coefficient of static friction = 0.0720
d = distance
Substituting these values into the equation
◇ET = 0.0720 × 164.0 × 4.10
â—‡Et = 48.42J
b) Using kinetic Energy equation
1/2 × MV1^2 = 1/2× MV2^2
But W = mg
M = W/g = 228 /9.81 = 23.27kg
1/2 × 23.27^2 = 1/2 × 23.27 ×V2^2
11.64 × 0.094 = 11.64V2^2
1.097 = 11.64V2^2
V2^2 = 1.097/11.64
V = Sqrt(0.094)
V = 0.3069 approximately 0.307m/s
