Answer: 299,427.84 J, 99,809.28 W
Explanation: we will assume the acceleration of the body to be constant, hence newton's laws of motion is applicable.
From the question
Force (f) = 75 N
Mass of object (m) = 6kg
Initial velocity (u) = 20 m/s
Final velocity (v) = 58 m/s
Time taken (t) = 3s
Recall that
F = ma
75 = 6a
a = 75/6 = 12. 5 m/s²
We need to get the distance before we can get the work done.
Recall that v² = u² + 2as, where s = distance covered
56² = 20² + 2(12.5)s
56² - 20² = 25s
2736 = 25s
s = 2736/ 25 = 109.44m
Work done = force × distance
Work done = 75 × 109.44 = 299,427.84 j
Power = work done / time
Power = 299,427.84 / 3
Power = 99,809.28 W
Answer:
Work done = 8752 J
Power = 2917 W
Explanation:
Mass of the box, m= 6.00 kg
Force , F = 75 N
Initial velocity , vi = 20 m/s
The velocity after t = 3.0 s is vf = 58 m/s
Acceleration of the box is ,[tex]\frac{v - u}{t}[/tex]
a = (58m/s-20m/s)/3s
a = 12.7 m/s²
The distance moved by the box is
v² - vi² = 2as
(58)² -(20)^2 = 2*12.7 m/s^2 * s
s = 116.69 m
Work done, W = F.s
= 75 N * 116.69 m
= 8752 J
Power = W/t
= 8752 J/3s
P = 2917 W
