When a carpenter shuts off his circular saw, the 10.0-inch-diameter blade slows from 4971 rpm to...

When a carpenter shuts off his circular saw, the 10.0-inch-diameter blade slows from 4217 rpm to...

When a carpenter shuts off his circular saw, the 10.0-inch-diameter blade slows from 4217 rpm to zero in 1.75 s . What is the angular acceleration of the blade? What is the distance traveled by a point on the rim of the blade during the deceleration? What is the magnitude of the net displacement of a point on the rim of the blade during the deceleration?

When a carpenter shuts off his circular saw, the 10.0-inch-diameter blade slows from 4987 rpm to...

When a carpenter shuts off his circular saw, the 10.0-inch-diameter blade slows from 4987 rpm to zero in 2.25 s . What is the distance traveled by a point on the rim of the blade during the deceleration? What is the magnitude of the net displacement of a point on the rim of the blade during the deceleration?

When a carpenter shuts off his circular saw, the 10.0-inch diameter blade slows from 4210 rpm...

When a carpenter shuts off his circular saw, the 10.0-inch diameter blade slows from 4210 rpm to zero in 3.00 s . A. What is the angular acceleration of the blade? α =   rev/s2   Part B What is the distance traveled by a point on the rim of the blade during the deceleration? s =   ft Part C What is the magnitude of the net displacement of a point on the rim of the blade during the deceleration? d =   in

When a carpenter shuts off his circular saw, the 10.0-inch diameter blade slows from 4830 rpm...

When a carpenter shuts off his circular saw, the 10.0-inch diameter blade slows from 4830 rpm to zero in 3.00 s . 1. What is the distance traveled by a point on the rim of the blade during the deceleration? 2. What is the magnitude of the net displacement of a point on the rim of the blade during the deceleration?

When a carpenter shuts off his circular saw, the 10.0 inch diameter blade slows from 4680rpm...

When a carpenter shuts off his circular saw, the 10.0 inch diameter blade slows from 4680rpm to zero in 1.25s. A.) what is the angular acceleration of the blade? B) what is the distance traveled by a point on the tim of the blade during the acceleration? (The answer will be in feet) C.) what is the magnitude of the net displacement of a point on the rim of the blade during deceleration? (Answer will be in inches)

When a carpenter shuts off his circular saw, the 10.0-inch-diameter blade slows from 4957 rpm to...

When a carpenter shuts off his circular saw, the 10.0-inch-diameter blade slows from 4957 rpm to zero in 3.25 s . A) What is the angular acceleration of the blade? Express your answer to three significant figures. (units=rad/s^2) B) What is the distance (ft) traveled by a point on the rim of the blade during the deceleration? Express your answer to three significant figures. C) What is the magnitude of the net displacement of a point on the rim of...

When a carpenter shuts off his circular saw, the 10.0-inch-diameter blade slows from 4488 rpm to...

When a carpenter shuts off his circular saw, the 10.0-inch-diameter blade slows from 4488 rpm to zero in 1.25 s . Part A What is the angular acceleration of the blade? (Express your answer to three significant figures.) (answer in rad/s2) Part B What is the distance traveled by a point on the rim of the blade during the deceleration?(Express your answer to three significant figures.) (answer in ft.) Part C What is the magnitude of the net displacement of...

A circular saw blade with radius 0.190 m starts from rest and turns in a vertical...

A circular saw blade with radius 0.190 m starts from rest and turns in a vertical plane with a constant angular acceleration of 2.00 rev/s2. After the blade has turned through 155 rev, a small piece of the blade breaks loose from the top of the blade. After the piece breaks loose, it travels with a velocity that is initially horizontal and equal to the tangential velocity of the rim of the blade. The piece travels a vertical distance of...

A 70.0-cm diameter flywheel is initially rotating clockwise at 100 rpm. It then undergoes a constant...

A 70.0-cm diameter flywheel is initially rotating clockwise at 100 rpm. It then undergoes a constant counterclockwise angular acceleration of 2.50 radians per square second for 5.00 seconds. a) What is the magnitude of the initial angular velocity in units of radians per second?   b) What are the magnitude and direction of the final angular velocity of the flywheel at the end of the 5.00 second interval in units of rad/s?    c) What is the magnitude of the net angle...