The energy required to increase the speed of a certain car from 16 m/s to 25...

A 2300 kg car moving at an initial speed of 25 m/s along a horizontal road...

A 2300 kg car moving at an initial speed of 25 m/s along a horizontal road skids to a stop in 50 m. (Note: When stopping without skidding and using conventional brakes, 100 percent of the kinetic energy is dissipated by friction within the brakes. With regenerative braking, such as that used in hybrid vehicles, only 70 percent of the kinetic energy is dissipated.) (a) Find the energy dissipated by friction. 718750 Incorrect: Your answer is incorrect. kJ (b) Find...

The driver of a 800.0 kg car decides to double the speed from 20.3 m/s to...

The driver of a 800.0 kg car decides to double the speed from 20.3 m/s to 40.6 m/s. What effect would this have on the amount of work required to stop the car, that is, on the kinetic energy of the car? KEi=___________×105 J KEf= __________× 105 J

A car starts from rest, after 10 s the speed of the car is 25 m/s....

A car starts from rest, after 10 s the speed of the car is 25 m/s. What is the magnitude of the car's acceleration?

A model-train car of mass 240 g traveling with a speed of 0.50 m/s links up...

A model-train car of mass 240 g traveling with a speed of 0.50 m/s links up with another car of mass 425 g that is initially at rest. (a) What is the speed of the cars immediately after they have linked together? m/s (b) Find the initial kinetic energy. mJ (c) Find the final kinetic energy. mJ

A 4.34-kg toy car with a speed of 4.13 m/s collides with a stationary 1.00-kg car....

A 4.34-kg toy car with a speed of 4.13 m/s collides with a stationary 1.00-kg car. After the collision, the cars are locked together with a speed of 3.6 m/s. How much kinetic energy is lost in this collision?

A railroad car moving at a speed of 3.50 m/s overtakes, collides and couples with two...

A railroad car moving at a speed of 3.50 m/s overtakes, collides and couples with two coupled railroad cars moving in the same direction at 1.40 m/s. All cars have a mass of mass 3.3x10^4 kg. (a) Determine the speed of the three coupled cars after the collision. (Give your answer to at least 2 decimal places.) m/s (b) Determine the kinetic energy lost in the collision. J

a 7500 kg railroad car traveling at a speed of 26.0 m/s strikes a 5000kg car...

a 7500 kg railroad car traveling at a speed of 26.0 m/s strikes a 5000kg car traveling at 10.0m/s. If the cars lock together as a result of collision what is their common speed afterward? How much of the initial kinetic energy is transferred to other forms of energy? Answer in 3 decimal places, and include full equation please

Two identical cars collide at an intersection(m=1500kg). Car 1 is traveling east with a speed of...

Two identical cars collide at an intersection(m=1500kg). Car 1 is traveling east with a speed of 16 m/s and car 2 is traveling north with a speed of 12 m/s. Immediately after the collison, car 1 travels with a speed of 8 m/s in a direction 60 north of east. The cars do not stick together. (a) What is the speed and direction of travel for car 2 after the collision? (b) What is the change in kinetic energy of...

The first car has twice the mass of a second car, but only half as much...

The first car has twice the mass of a second car, but only half as much kinetic energy. When both cars increase their speed by 12 m/s m/s , they then have the same kinetic energy. Part A What were the original speeds of the two cars?

A car has an initial speed of 25 m /s and a constant deceleration of 3...

A car has an initial speed of 25 m /s and a constant deceleration of 3 2 m /s . Determine the velocity of the car when t =4 s. What is the displacement of the car during the 4-s time interval? How much time is needed to stop the car?