Problem 2: At its lowest setting a centrifuge rotates with an angular speed of w = 350 rad/s. When it is switched to the next higher setting it takes t= 9.5 s to uniformly accelerate to its final angular speed w2 = 550 rad/s.Part (a) Calculate the angular acceleration of the centrifuge aj in rad/s over the time interval t.sin()cos()tan()HOMEcotan()asin()acos()E4 | 5atan()acotan()sinh()1 23cosh()tanh()cotanh()ENDODegrees O Radiansvol BACKSPACEDEL CLEARSubmitI give up!HintFeedbackCalculate the total angular displacement (in radians) of the centrifuge, AO, as it accelerates from the initial to the final speed.

Given Initial angular speed ω1 = 350 rad/s Final angular speed ω2 = 550 rad/s Time (t)…

Problem 2: At its lowest setting a centrifuge rotates with an angular speed of o = 350 rad's. When it is switched to the next higher setting it takes t = 9.5 s to uniformly accelerate to its final angular speed w, = 550 rad's. Part (a) Calculate the angular acceleration of the centrifuge a, in rad/s over the time interval t. az = sin() cos() tan() 9 HOME cotan() asin() acos() E 4 5 6 atan() acotan() sinh) 1 3 tanh() ODegrees O Radians cosh() cotanh() END vol BACKSPACE CLEAR Hint I give up! Submit Feedback Calculate the total angular displacement (in radians) of the centrifuge, A8, as it accelerates from the initial to the final speed.

Problem 2: At its lowest setting a centrifuge rotates with an angular speed of o = 350 rad's. When it is switched to the next higher setting it takes t = 9.5 s to uniformly accelerate to its final angular speed w, = 550 rad's. Part (a) Calculate the angular acceleration of the centrifuge a, in rad/s over the time interval t. az = sin() cos() tan() 9 HOME cotan() asin() acos() E 4 5 6 atan() acotan() sinh) 1 3 tanh() ODegrees O Radians cosh() cotanh() END vol BACKSPACE CLEAR Hint I give up! Submit Feedback Calculate the total angular displacement (in radians) of the centrifuge, A8, as it accelerates from the initial to the final speed.