A 1.91 x 1000 kg car accelerates uniformly from rest to 11.1 m/s in 2.91 s

Question

Question

science physics

Answer 1

Answer #1

dones: change cm krnotztenar2 Final dpeodIms a.al s

Answer 2

Similar Homework Help Questions

a car accelerates uniformly from rest to a speed of 16.5 m/s in 8.9 s. the...

a car accelerates uniformly from rest to a speed of 16.5 m/s in 8.9 s. the diameter of the tire is 70.5 cm. find the number of revolutions the tide makes during the motion, assuming no sloping A car accelerates rest and reaches a speed of 16.5 m/s in 8.9 s. The diameter of a tire is 70.5 cm uniformly from Find the number of revolutions the tire makes during this motion, assuming no slip- ping. Answer in units of...
A 1.50 ✕ 103-kg car starts from rest and accelerates uniformly to 15.2 m/s in 12.7...

A 1.50 ✕ 103-kg car starts from rest and accelerates uniformly to 15.2 m/s in 12.7 s. Assume that air resistance remains constant at 400 N during this time. (a) Find the average power developed by the engine. hp (b) Find the instantaneous power output of the engine at t = 12.7 s, just before the car stops accelerating. hp
A 1.50 ✕ 103-kg car starts from rest and accelerates uniformly to 17.0 m/s in 12.5...

A 1.50 ✕ 103-kg car starts from rest and accelerates uniformly to 17.0 m/s in 12.5 s. Assume that air resistance remains constant at 400 N during this time. (a) Find the average power developed by the engine. hp (b) Find the instantaneous power output of the engine at t = 12.5 s, just before the car stops accelerating. hp

A car accelerates uniformly from rest to 20.0 m/s in 5.6 s along a level stretch...

A car accelerates uniformly from rest to 20.0 m/s in 5.6 s along a level stretch of road. Ignoring friction, determine the average power required to accelerate the car if (a) the weight of the car is 9.0 x 103 N and (b) the weight of the car is 1.4 x 104 N Please show the reasoning and solution.
A car accelerates uniformly from rest to 16.0 m/s in 7.24 s along a level stretch...

A car accelerates uniformly from rest to 16.0 m/s in 7.24 s along a level stretch of road. Ignoring friction, determine the average power required to accelerate the car if (a) the weight of the car is 6.38 x 10^3 N, and (b) the weight of the car is 1.45 x 10^4 N. Please do not round answer
A 1500-kg car starts from rest and accelerates uniformly to 18.0 m/s in 12.0 s over...

A 1500-kg car starts from rest and accelerates uniformly to 18.0 m/s in 12.0 s over a dry concrete road. Assume that kinetic friction remains constant at 400 N during this time. – (a) Find the net work done on the car and the work done by the engine. – (b) How many revolutions does each tire make over the 12.0 s interval? What is the angular speed of the wheels when the car has traveled half the total distance?...

A car accelerates uniformly from rest and reaches a speed of 17.8 m/s in 7.1 s....

A car accelerates uniformly from rest and reaches a speed of 17.8 m/s in 7.1 s. The diameter of a tire is 69.7 cm. Find the number of revolutions the tire makes during this motion, assuming no slipping. Answer in units of rev
Question 6 (motion to force) A 1000 kg car with you in it accelerates from rest...

Question 6 (motion to force) A 1000 kg car with you in it accelerates from rest to 32 m/s in a time of 4 seconds. You are 50 kg. a. With how much force does the ground push the car forward? b. With how much force does the seat push you forward?
Question 6 (motion to force) A 1000 kg car with you in it accelerates from rest...

Question 6 (motion to force) A 1000 kg car with you in it accelerates from rest to 32 m/s in a time of 4 seconds. You are 50 kg. a. With how much force does the ground push the car forward? b. With how much force does the seat push you forward?

A car accelerates uniformly from rest and reaches a speed of 22.0 m/s in 9.00 s....

A car accelerates uniformly from rest and reaches a speed of 22.0 m/s in 9.00 s. Assuming the diameter of a tire is 58.0 cm, (a) find the number of revolutions the tire makes during this motion, assuming no slipping occurs, (b) What is the final angular speed of a tire in revolutions per second?