calculate the distance required for a 1700 kg car to come to rest from a speed...
calculate the distance required for a 1700 kg car to come to rest from a speed of 35 m/s when 2900 N of force is applied by the brakes
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calculate the distance required for a 1700 kg car to come to
rest from a speed...
(a) Calculate the force needed to bring a 900 kg car to rest from a speed...
(a) Calculate the force needed to bring a 900 kg car to rest from a speed of 90.0 km/h in a distance of 100 m (a fairly typical distance for a nonpanic stop). N (b) Suppose instead the car hits a concrete abutment at full speed and is brought to a stop in 2.00 m. Calculate the force exerted on the car and compare it with the force found in part (a), i.e. find the ratio of the force in...
(a) Calculate the force needed to bring a 1050 kg car to rest from a speed...
(a) Calculate the force needed to bring a 1050 kg car to rest from a speed of 95.0 km/h in a distance of 115 m (a fairly typical distance for a nonpanic stop). (b) Suppose instead the car hits a concrete abutment at full speed and is brought to a stop in 2.00 m. Calculate the force exerted on the car and compare it with the force found in part (a), i.e. find the ratio of the force in part(b)...
The driver of a 1.19 103 kg car traveling on the interstate at 35.0 m/s (nearly...
The driver of a 1.19 103 kg car traveling on the interstate at 35.0 m/s (nearly 80.0 mph) slams on his brakes to avoid hitting a second vehicle in front of him, which had come to rest because of congestion ahead. After the brakes are applied, a constant kinetic friction force of magnitude 7.96 103 N acts on the car. Ignore air resistance. (a) At what minimum distance should the brakes be applied to avoid a collision with the other...
Calculate the force (in N) needed to bring a 1100 kg car to rest from a...
Calculate the force (in N) needed to bring a 1100 kg car to rest from a speed of 95.0 km/h in a distance of 100 m (a fairly typical distance for a non-panic stop). b) Suppose instead the car hits a concrete abutment at full speed and is brought to a stop in 2.00 m. Calculate the force exerted on the car and compare it with the force found in part (a). force in (b) force in (a)
A 925-kg pickup slows to rest from a speed of 77.5 km/h in a distance of...
A 925-kg pickup slows to rest from a speed of 77.5 km/h in a distance of 145 m. Presume the pickup is initially traveling in the positive direction. Part (a) If the brakes are the only thing making the pickup come to a stop, calculate the force (in newtons, in a component along the direction of motion of the pickup) that the brakes apply on the pickup. Numeric : A numeric value is expected and not an expression. Fb =...
A mechanic pushes a 2.60 ✕ 103-kg car from rest to a speed of v, doing...
A mechanic pushes a 2.60 ✕ 103-kg car from rest to a speed of v, doing 4,770 J of work in the process. During this time, the car moves 20.0 m. Neglecting friction between car and road, find v and the horizontal force exerted on the car. (a) the speed v m/s (b) the horizontal force exerted on the car (Enter the magnitude.) N
rest from Consider the 2000 kg car shown below. The car coasts, from rest a height...
rest from Consider the 2000 kg car shown below. The car coasts, from rest a height of 35 m. Determine (a) how fast the car is going when reaches the flat road below. When it reaches point A, the driver locks up the brakes. If the car comes to rest at point B, determine the coefficien lof static friction between the tires and the road as the car iskids to a stop. Determine the work done by the frictional force....
A 2500 kg car is accelerated from rest to 20.0 m/s on a distance of 120.0m....
A 2500 kg car is accelerated from rest to 20.0 m/s on a distance of 120.0m. What force acted on the car during this motion?
A mechanic pushes a 2.60 times 10^3 kg car from rest to a speed of v,...
A mechanic pushes a 2.60 times 10^3 kg car from rest to a speed of v, doing 5.460 J of work in the process. During this time, the car moves 24.0 m. Neglecting friction between car and road, find v and the horizontal force exerted on the car. the speed v m/s the horizontal force exerted on the car (Enter the magnitude.) 193 Your response differs from the correct answer by more than 10 %. Double check your calculations. N
The distance required for a car to come to a stop will vary depending on how...
The distance required for a car to come to a stop will vary depending on how fast the car is moving. Suppose that a certain car traveling down the road at a speed of 20 m/s can come to a complete stop within a distance of 80 m. Assuming the road conditions remain the same, what would be the stopping distance required for the same car if it were moving at speeds of 10 m/s, 40 m/s, or 5 m/s...
rest from Consider the 2000 kg car shown below. The car coasts, from rest a height of 35 m. Determine (a) how fast the car is going when reaches the flat road below. When it reaches point A, the driver locks up the brakes. If the car comes to rest at point B, determine the coefficien lof static friction between the tires and the road as the car iskids to a stop. Determine the work done by the frictional force....
A mechanic pushes a 2.60 times 10^3 kg car from rest to a speed of v, doing 5.460 J of work in the process. During this time, the car moves 24.0 m. Neglecting friction between car and road, find v and the horizontal force exerted on the car. the speed v m/s the horizontal force exerted on the car (Enter the magnitude.) 193 Your response differs from the correct answer by more than 10 %. Double check your calculations. N
The distance required for a car to come to a stop will vary depending on how fast the car is moving. Suppose that a certain car traveling down the road at a speed of 20 m/s can come to a complete stop within a distance of 80 m. Assuming the road conditions remain the same, what would be the stopping distance required for the same car if it were moving at speeds of 10 m/s, 40 m/s, or 5 m/s...
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