A bicyclist races once around a circular track of radius 265 m every 2.9 minutes at a constant speed. What is the bicyclist's acceleration in units of meters/second2?
A bicyclist races once around a circular track of radius 265 m every 2.9 minutes at...
(10 pts) A car races around a circular track with a radius of 500 m. The cars mass is 750 kg and it takes 10 minutes to make one complete lap. Calculate the tangential velocity, centripetal acceleration, and centripetal force.
A car travels at a constant speed around a circular track whose radius is 2.65 km. The car goes once around the track in 341 s. What is the magnitude of the centripetal acceleration of the car?
A car races at a constant speed of 370 km/h around a flat, circular track 1.30 km in diameter. 1) What is the magnitude of the car's radial acceleration in m/s2? (Express your answer to two significant figures.)
A car starts from rest and moves around a circular track of radius 32.0 m. Its speed increases at the constant rate of 0.550 m/s2. (a) What is the magnitude of its net linear acceleration 19.0 s later? (b) What angle does this net acceleration vector make with the car's velocity at this time? Question 6 A car starts from rest and moves around a circular track of radius 32.0 m. Its speed increases at the constant rate of 0.550...
A car travels at a constant speed around a circular track whose radius is 3.37 km. The car goes once around the track in 226 s. What is the magnitude of the centripetal acceleration of the car? I get 1.88 m/s^2
A car travels at a constant speed around a circular track whose radius is 3.0 km. The car goes once around the track in 420 s. What is the magnitude of the centripetal acceleration of the car? x m/s .1184 Additional Materials Section 5.2
A car travels at a constant speed around a circular track whose radius is 2.51 km. The car goes once around the track in 356 s. What is the magnitude of the centripetal acceleration of the car?
A jogger runs around a circular track of 30 m radius, as shown in the figure. She runs at constant speed in a clockwise direction for a few minutes. She completes a round in 40 s. Using N, S, E, W, cw, or ccw for the direction, compare the directions and magnitudes of her linear velocity, linear acceleration, angular velocity and angular acceleration at A, B and C
A bicyclist who has a mass (including their bike) of 85 kg is racing around a track. The radius of curvature of the track is 20 m. The bicyclist’s linear velocity is 17 m/s. Given the bicyclist is at a constant speed, staying level (not going up or down, therefore no vertical acceleration), what angle does the track need to be banked so that NO frictional force is required to keep their circular path?
You drive a car around a circular track of radius 50 m at a constant speed of 3 m/s, the centripetal acceleration magnitude (in m/s2 2.5 0.18 0.54 0.20