A 1488 kg car can accelerate to 95 km/h in 6.25 s. What is the average...

The car with 20000 N weight increases its speed uniformly from 18 km/h to 90 km/h...

The car with 20000 N weight increases its speed uniformly from 18 km/h to 90 km/h in 40 s up the inclined rough road with 15 angle and the coefficient of kinetic friction between the car and the ground is k = 0.5. Determine: ▪ the maximum power that must be supplied by the car engine ( = 0.8), ▪ the average power supplied by the engine. ▪ the initial kinetic energy T1 ▪ the final kinetic energy T2 ▪...

Consider a 1,233 kg car cruising at constant speed of 71 km/h. Now the car starts...

Consider a 1,233 kg car cruising at constant speed of 71 km/h. Now the car starts to pass another car, by accelerating to 119 km/h in 7 s. Neglect air drag and friction and assume the road is level. By taking the entire car as the system and appying an energy balance, determine the additional power (kW) needed to achieve this acceleration to 1 decimal place. (note: 1 m/s = 3.6 km/h)

A 62 kg human sprinter can accelerate from rest to 11.3 m/s in 3.9 s ....

A 62 kg human sprinter can accelerate from rest to 11.3 m/s in 3.9 s . What is the average power output of the human in Watts?

a 2500 kg car accelerates uniformly from rest to 15.0 m/s in 8.00 s. What is...

a 2500 kg car accelerates uniformly from rest to 15.0 m/s in 8.00 s. What is the work done on the car in this time interval? What is the power delivered by the engine in this time interval? Answer in 3 decimal places, and include full equation please

A 6860 kg car traveling at 41 m/s is at the foot of a hill that...

A 6860 kg car traveling at 41 m/s is at the foot of a hill that rises 491 m in 1.7 km. At the top of the hill, the speed of the car is 5 m/s. The acceleration of gravity is 9.81 m/s 2 . Assuming constant acceleration, find the average power delivered by the car’s engine, neglecting any internal frictional losses. Answer in units of kW.

A 2000 kg race car can go from zero to 120 km/hr in 3.50 s. What...

A 2000 kg race car can go from zero to 120 km/hr in 3.50 s. What average power is required to do this?

"A 2000-kg car accelerates from 20 to 60 km/h on an uphill road. The car travels...

"A 2000-kg car accelerates from 20 to 60 km/h on an uphill road. The car travels 120 m and the slope of the road from the horizontal is 25 degrees. Determine the work done by the engine." The answer is 1240 kJ using the First Law of Thermodynamics, but please explain sign conventions of Work and whether or not the engine is excluded from the system... thank you

A 68 kg hiker walks at 5.0 km/h up a 3.0 ∘slope. What is the necessary...

A 68 kg hiker walks at 5.0 km/h up a 3.0 ∘slope. What is the necessary metabolic power? Hint: You can model her power needs as the sum of the power to walk on level ground plus the power needed to raise her body by the appropriate amount. Express your answer to two significant figures and include the appropriate units.

You are pushing a lawn mower a distance of 0.20 km with an average force of...

You are pushing a lawn mower a distance of 0.20 km with an average force of 90 N. A. What is the work done by your push? B. If you finish the job in 30 mins, what is your power pushing this lawn mower? C. If the grass cutter is driven by a 7.5 horse power (HP) engine, what is the power output of this engine in W? (1 HP = 746 Watts) D. Calculate the energy provided by this...

A 1700 kg Buick moving at 95 km/h brakes to a stop, at uniform deceleration and...

A 1700 kg Buick moving at 95 km/h brakes to a stop, at uniform deceleration and without skidding, over a distance of 95 m. At what average rate is mechanical energy transferred to thermal energy in the brake system?