A car is accelerated from velocity v₁ to v2 in the time period of t. The mass of the car is m. The inclined angle of the hill is a. The distance travelled along the hill is L. The vertical distance travelled is H. If v1= 2 m/s, v2 = 30 m/s, t = 5 s, m= 1000 kg, a = 30°, L = 50 m, calculate the potential energy increase, AKE= H

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Chapter1: Units, Trigonometry. And Vectors
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A car is accelerated from velocity vto v2 in the time period of t . The mass of the car is m. The inclined angle of the hill is α. The distance travelled along the hill is L. The vertical distance travelled is H.

If v1= 2 m/s, v2 = 30 m/s, t = 5 s, m= 1000 kg, α = 30 °, L = 50 m, calculate the potential energy  increase , ΔKE=_____J

 

A car is accelerated from velocity \( v_1 \) to \( v_2 \) in the time period of \( t \). The mass of the car is \( m \). The inclined angle of the hill is \( \alpha \). The distance travelled along the hill is \( L \). The vertical distance travelled is \( H \).

A diagram illustrates a car moving up an inclined plane with the following labels:
- \( v_1 = 2 \, \text{m/s} \)
- \( v_2 = 30 \, \text{m/s} \)
- \( t = 5 \, \text{s} \)
- \( m = 1000 \, \text{kg} \)
- \( \alpha = 30^\circ \)
- \( L = 50 \, \text{m} \)

The triangle in the diagram shows:
- An inclined slope with the horizontal length labeled as \( L \).
- The vertical side labeled as \( H \).
- The angle of incline labeled as \( \alpha \).

The task is to calculate the potential energy increase, \(\Delta KE = \_\_\_\_\) J (Joules).
Transcribed Image Text:A car is accelerated from velocity \( v_1 \) to \( v_2 \) in the time period of \( t \). The mass of the car is \( m \). The inclined angle of the hill is \( \alpha \). The distance travelled along the hill is \( L \). The vertical distance travelled is \( H \). A diagram illustrates a car moving up an inclined plane with the following labels: - \( v_1 = 2 \, \text{m/s} \) - \( v_2 = 30 \, \text{m/s} \) - \( t = 5 \, \text{s} \) - \( m = 1000 \, \text{kg} \) - \( \alpha = 30^\circ \) - \( L = 50 \, \text{m} \) The triangle in the diagram shows: - An inclined slope with the horizontal length labeled as \( L \). - The vertical side labeled as \( H \). - The angle of incline labeled as \( \alpha \). The task is to calculate the potential energy increase, \(\Delta KE = \_\_\_\_\) J (Joules).
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