A car starts from rest and speeds up at a constant rate of 2.84 m/s2 as...

A 1700 kg car starts from rest and drives around a flat 70-m-diameter circular track. The...

A 1700 kg car starts from rest and drives around a flat 70-m-diameter circular track. The forward force provided by the car's drive wheels is a constant 1300 N. Express your answers to two significant figures and include the appropriate units. a) What is the magnitude of the car's acceleration at t=10s? b) What is the direction of the car's acceleration at t=10s? Give the direction as an angle from the r-axis. c) If the car has rubber tires and...

at the origin, car A starts from rest and accelerates at a rate of 0.9m/s2 and...

at the origin, car A starts from rest and accelerates at a rate of 0.9m/s2 and moves to the right. at the instant car A starts, car B passes the origin at a velocity of 28 m/s to the right and immediately slows down at a rate of 0.7m/s2. take right as +X. A) find the time t at which car A catches up with car B B) sketch the position vs time graph of car A and car B...

A car starts from rest and drives around a circular track with a radius of 45.0...

A car starts from rest and drives around a circular track with a radius of 45.0 m at constant tangential acceleration. If the car takes 27.0 s in its first lap around the track, (a) what is the magnitude of its overall acceleration at the end of that lap? (b) What angle does the acceleration vector make with a radius line?

An automobile moves on a circular track of radius 1.04 km. It starts from rest from...

An automobile moves on a circular track of radius 1.04 km. It starts from rest from the point (x, y) = (1.04 km, 0 km) and moves counterclockwise with a steady tangential acceleration such that it returns to the starting point with a speed of 29.2 m/s after one lap. (The origin of the Cartesian coordinate system is at the center of the circular track.) What are the car's position and velocity vectors when it is one-sixth of the way...

A car starts from rest then it moves with a constant acceleration of 3m/s2 for 10...

A car starts from rest then it moves with a constant acceleration of 3m/s2 for 10 secs. It then maintains its velocity for 20 secs., then the brakes were applied after which it stopped 5 secs. later. Solve for the total distance traveled by the car.

A new car is tested on a 230-m-diameter track. If the car speeds up at a...

A new car is tested on a 230-m-diameter track. If the car speeds up at a steady 1.6 m/s2 , how long after starting is the magnitude of its centripetal acceleration equal to the tangential acceleration

A speedboat starts from rest at t = 0 s, and speeds up with a constant...

A speedboat starts from rest at t = 0 s, and speeds up with a constant acceleration of 4.01 m/s2 for 6.00 s. Then it continues with a uniform speed for another 6.00 s. Finally, it slows down with a constant acceleration of −3.41 m/s2 . In your written work, include the velocity vs. time and acceleration vs. time graphs for this motion. The numerical values on the graphs are required. (a) How long does it take for the speedboat...

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?

The Batmobile, starting from rest, speeds up with an acceleration of magnitude 2.25 m/s2 through a...

The Batmobile, starting from rest, speeds up with an acceleration of magnitude 2.25 m/s2 through a distance of 225 m. It then applies the brake and slows down with an acceleration of magnitude 0.750 m/s2, until it finally stops after having traveled an additional distance of 675 m. Calculate the time that it takes to travel the entire 900 m from start to finish.

A car travels along a straight road. It starts from rest and accelerated in two stages....

A car travels along a straight road. It starts from rest and accelerated in two stages. Each stage takes the same amount of time. In the first stage, the car speeds up with acceleration 3.0 m/s^2. At the end of the second stage, the cars velocity magnitude is 2.5 times greater than it is at the end of the first stage. Find the acceleration magnitude in the second stage.