If a car moving along a circular track of radius 300 m completes 540° in 5...

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?

A race car is on a circular track with a radius of R The driver accelerates...

A race car is on a circular track with a radius of R The driver accelerates from rest with a constant angular acceleration of alpha. The driver constantly accelerates as he drives one lap around the track. What is the driver's angular velocity as he finishes this first lap?

A runner runs around a circular track. He completes one lap at a time of t...

A runner runs around a circular track. He completes one lap at a time of t = 471 s at a constant speed of v = 3.1 m/s. What is the radius, r in meters, of the track? What was the runners centripetal acceleration, ac in m/s2, during the run?

An athlete completes one round of a circular track of diameter 200 m in 40 s,...

An athlete completes one round of a circular track of diameter 200 m in 40 s, calculate the displacement and displacement covered by the athlete at the end of 2 minutes 20 seconds, give explanation of your answer with relevant figure. Using the given data predict, average velocity & average speed of the athlete.

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 new car is tested on a 300-m-diameter track. A) If the car speeds up at...

A new car is tested on a 300-m-diameter track. A) If the car speeds up at a steady 1.5 m/s^2 , how long after starting is the magnitude of its centripetal acceleration equal to the tangential acceleration?

Question 1 A car is moving at a constant speed of 17.0 m/s around a circular...

Question 1 A car is moving at a constant speed of 17.0 m/s around a circular road with a radius of 34.0 m. Calculate the acceleration of the car. Give your answer with one decimal point. Your Answer: Answer units Question 2 A 1200.0 kg car is moving with a constant speed of 12.0 m/s around a circular road with a radius of 12.0 m. Calculate the friction. Give your answer with one decimal point. Your Answer: Answer units Question...

A car is traveling around a horizontal circular track with radius r = 210 m at...

A car is traveling around a horizontal circular track with radius r = 210 m at a constant speed v = 23 m/s as shown. The angle θA = 23° above the x axis, and the angle θB = 53° below the x axis. 1) What is the magnitude of the car’s acceleration? m/s2 Your submissions: 2) What is the x component of the car’s acceleration when it is at point A m/s2 Your submissions: 3) What is the y...

A car moves in circular track with a constant speed. Which of the following statements is...

A car moves in circular track with a constant speed. Which of the following statements is correct? And Explain? Answers: A) It has a constant velocity B) It requires a force which points in the radial direction C) It does not need any force D) It requires a force which points in the tangential direction

A car starts at the bottom of a circular track with an inital velocity of 50m/s...

A car starts at the bottom of a circular track with an inital velocity of 50m/s through a height of 10 m. The radius of the track is 10m. (A) Describe the resulting motion of the car if no energy is lost. (B) Find the position on the track where the normal force is zero. (C) Does the car loose contact with the track? Explain, (D) and calculate the maximum height the car reached on the track. (E) Is the...