What is the work to be done to increase the velocity of a car from 30km/h to 60km/h if the mass of car is 1500 kg...
Answers
Answered by
3
1/2m(v^2-u^2) = the work done to increase the velocity of the car.
30km/h = 8.34 m/s
60km/h = 16.67m/S
Therefore 1/2×1500 (16.67^2-8.34^2)
=750×(277.8889-69.5556)
= 750×208.34
= 156249.975j
30km/h = 8.34 m/s
60km/h = 16.67m/S
Therefore 1/2×1500 (16.67^2-8.34^2)
=750×(277.8889-69.5556)
= 750×208.34
= 156249.975j
Answered by
1
Answer:
Work done is 156250 J.
Explanation:
Given,
The mass (m) of the car is 1500 kg.
Initial velocity of car = u = 30 km / hr = 30 * 5/18 = 25 / 3 m/s
Final velocity of car = v = 60 km / hr = 60 * 5/18 = 50/3 m/s
To find: The work to be done to increase the velocity of a car from
30 km h-1 to 60 km h^-1
Solution:
Initial kinetic energy = Ki = 1/2mu² = 1/2*1500*25/3 * 25/3 = 156250/3 J
Final Kinetic energy = Kf = 1/2mv² = 1/2*1500*50/3*50/3 = 625000/3 J
Work done can be given as change in Kinetic Energy,
i.e W = ΔK.E
or, W = Kf - Ki
or, W = 625000/3 - 156250/3
or, W = 156250 J
Therefore, Work done is 156250 J.
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