Did you mean: A car of mass 500 kg is moving with a velocity of 36 km/h. when brakes applied it stops with uniform negative acceleration at a distance of 150m.calculate the force applied by the brakes of the car and work done before stopping.
grp1970:
Did you mean: A car of mass 500 kg is moving with a velocity of 36 km/h. when brakes applied it stops with uniform negative acceleration at a distance of 150m.calculate the force applied by the brakes of the car and work done before stopping.
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sejaljladhava
Primary School Physics 6+3 pts
Did you mean: A car of mass 500 kg is moving with a velocity of 36 km/h. when brakes applied it stops with uniform negative acceleration at a distance of 150m.calculate the force applied by the brakes of the car and work done before stopping.
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sejaljladhava
Sejaljladhava Ambitious
Mass of the car m = 500 kg
Initial speed u = 36 km/h = 10 m/s
Final speed v = 0
s = 150 m
We have v2 - u2 = 2as
a = (v² - u²)/(2s)
= (0 - 10²)/300 = -100/300 = - 0.33 m/s²
Retardation = 0.33 m/s²
Force applied by the brakes = Retarding force F = mass x retardation = 500 x 0.33 = 165 N.
Work done before stopping W = Force x distance moved = 165x 150 = 24750 Nm = 24750 J
What is your question?
sejaljladhava
Primary School Physics 6+3 pts
Did you mean: A car of mass 500 kg is moving with a velocity of 36 km/h. when brakes applied it stops with uniform negative acceleration at a distance of 150m.calculate the force applied by the brakes of the car and work done before stopping.
Ask for details unfollow Report by Grp1970 1 hour ago
Answers
sejaljladhava
Sejaljladhava Ambitious
Mass of the car m = 500 kg
Initial speed u = 36 km/h = 10 m/s
Final speed v = 0
s = 150 m
We have v2 - u2 = 2as
a = (v² - u²)/(2s)
= (0 - 10²)/300 = -100/300 = - 0.33 m/s²
Retardation = 0.33 m/s²
Force applied by the brakes = Retarding force F = mass x retardation = 500 x 0.33 = 165 N.
Work done before stopping W = Force x distance moved = 165x 150 = 24750 Nm = 24750 J
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Hi there !!
Mass of the car = m = 500 kg
Initial velocity = u = 36 km/h = 36 × 5/18 = 10 m/s
Final veloicity = v = 0
Distance = s = 150 m
We know that ,
a = acceleration
v² - u² = 2as
a =
=
=
= - 0.33 m/s²
Retardation = 0.33 m/s²
Force applied by the brakes = mass × retardation = 500 × 0.33 = 165 N.
Work done before stopping , W = F× s
= 165x 150
= 24750 J
Mass of the car = m = 500 kg
Initial velocity = u = 36 km/h = 36 × 5/18 = 10 m/s
Final veloicity = v = 0
Distance = s = 150 m
We know that ,
a = acceleration
v² - u² = 2as
a =
=
=
= - 0.33 m/s²
Retardation = 0.33 m/s²
Force applied by the brakes = mass × retardation = 500 × 0.33 = 165 N.
Work done before stopping , W = F× s
= 165x 150
= 24750 J
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