Explanation:
Advantages of physical models include accuracy, safety, visualization, education, and trying things out that would be impossible in the real world due to safety, cost, or practical concerns. You can visualize things that are extremely tiny, happened millions of years ago, or that otherwise can't be viewed directly.
Fall time machine:
t = √ (2*H/g) = √ (2*40.8 / 9,8) ≈ 2.9 s
Horizontal movement:
S = V₀*t
Speed:
V₀ = S / t = 121 / 2.9 ≈ 41.7 m/s or 150 km/h
Answer:
The force the ceiling exert on the hook is 321.67 N
Explanation:
Here we have the weights being 75 N and 125 N
The weight of the pulley = 80 N
Total weight hung from the ceiling = 75 + 125 + 80 = 280 N
Therefore since the forces acting on the ceiling tends to act downwards as they are the forces due to weights, we have
The force on the
T₁ - 125 = m₂a =
m₂ = 125/9.8 = 12.76 kg
Similarly T₂ - 75 = m₁a, m₁ = 7.65 kg
acceleration is given by
= 2.042 m/s²
Therefore
T₁ - 125 = m₂a = 12.76 × 2.042 = 26.04 N and
T₁ = 125 + 26.04 = 151.04 N
Similarly T₂ - 75 = m₁a = 7.65 × 2.042 = 15.63 N
T₂ = 15.63 + 75 = 90.63 N
Force on hook = Force exerted by ceiling on hook = T₁ + T₂ + Weight of pulley = 151.04 + 90.63 + 80 = 321.67 N
Answer is no. Force has nothing to do with gravitational potential energy.