Respuesta :
Answer:
a) P = 70054.3 W, Â b) Â P = 18820 W, Â c) Â P = 14116.7 W
Explanation:
Power is defined as work per unit of time
     P = W / t = F x / t
     P = F v
a) in this case the velocity is constant, let's use the equilibrium relation to find the force.
Let's set a reference system with the x axis parallel to the plane
     Â
    F - Wₓ = 0
     F = Wₓ
with trigonometry let's decompose the weight
    sin θ = Wₓ / W
    Wₓ = W sin θ
    Â
     F = W sin 15
     F = 2800 sin 15
     F = 724.7 lb
we look for the speed, as it rises with constant speed we can use the relations of uniform motion
     v = x / t
     v = 1160/12
     v = 96.67 ft / s
we calculate the power
     P = 724.7 96.67
     P = 70054.3 W
b) In this case, the speed of the vehicle changes during the ascent, so we use the relationship between work and the change in kinetic energy
      W = ΔK
      W = ½ m v_f² - ½ m v₀²
  let's reduce to the SI system
      v₀ = 10 mph (5280 ft / 1 mile) (1h / 3600 s = 14.67 ft / s
      v_f = 50 mph (5280 ft / 1 mile) (1 h / 3600s) = 73.33 ft.s
     Â
 mass :     m = w / g
      W = ½ 2800/32 (73.33² - 14.67²)
      W = 225841 J
we calculate the average power
      P = W / t
      P = 225841/12
      P = 18820 W
c) we repeat the previous procedure
     v₀ = 45 mph = 66 ft / s
     v_f = 15 mph = 22 ft / s
     W = ½ 2800/32 (22² - 66²)
     W = -169400 J
    Â
     P = W / t
     P = 169400/12
     P = 14116.7 W
