Review I Constants centripetal acceleration. In this problem we consider a mass moving in a circle of radius R with angular velocity w. Part A F(t) = R cos(wt)i + sin(wt)j R cos(wt)i + R sin(wt)j. %3D What is the velocity of the mass at a time t? You can work this out geometrically with the help of the hints, or by differentiating the expression for 7 (t) given in the introduction. (Figure 2) сan The main point of the problem is to compute the acceleration using geometric arguments. (Figure 1) Express this velocity in terms of R, w, t, and the unit vectors i and j. Figure K 1 of 3 > > View Available Hint(s) i (t) = %3!

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ng Course Home pllege.com/course.html?courseld=17255520&OpenVellumHMAC=542b08604d0440e90b83676f5b1111f2#10001 me tamer type or Change Tras a speciaTae, e centripetal acceleration. In this problem we consider a mass moving in a circle of radius R with angular velocity an Review I Constants Part A F(t) = R cos(wt)i + sin(wt)} = R cos(wt)i + R sin(wt)j. What is the velocity of the mass at a time t? You can work this out geometrically with the help of the hints, or by differentiating the expression for T (t) given in the introduction. (Figure 2) The main point of the problem is to compute the acceleration using geometric arguments. (Figure 1) Express this velocity in terms of R, w, t, and the unit vectors i and j. Figure K 1 of 3> > View Available Hint(s) v (t) = 7() Submit Previous Answers X Incorrect; Try Again; 5 attempts remaining Assume that the mass has been moving along its circular path for some time. You start timing P Pearson Copyright © 2022 Pearson Education Inc. All rights reserved. Terms of Use | Privacy Policy | Permissions | Contact Us | Screen Sho 2022-03.2.53 24 étv MacBook Air 吕0 888 DII DD F3 F4 F5 F6 F7 F8 F9 F10 F11 & ( ) * 2$ 4 5 7 Y U P * 00 < cO

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=17255520&OpenVellumHMAC=542b08604d0440e90b83676f5b1111f2#10001 plem we consider a 2 with angular velocity I Review I Constants Part B sin (at)}] in (ut)j. What is the velocity of the mass at a time - t? Express this velocity in terms of R, w, t, and the unit vectors i and j. elc compute the ents. (Figure 1) ΑΣφ ? < 1 of 3>) 7 (-t) = Submit Request Answer Part C What is the average acceleration of the mass during the time interval from -t tot? (Figure 3) Express this acceleration in terms of R, w, t, and the unit vectors i and j. • View Available Hint(s) Pearson Sc 22 Pearson Education Inc. All rights reserved. | Terms of Use | Privacy Policy | Permissions | Contact Us | VInutes Ago Screen Shot 2022-03...2.53 AM 2022 étv MacBook Air DII DD F5 F12 F6 F7 F8 F9 F10 F11 > ...