KErolling1C'm=871 JmvO 521 Jemis related to Van if it is rolling withou!slippingCH+/- 1 cm @²is related to the moment of inertiaabout the point of contact by theparallel axis theoremO 51 J○ 3.15 JO 315 Jdisc syry atMR²MR²12MISold cynderHoupacWinery agØ1 = MR²-MR²HogabatSexdsphere1 =Thestathad acadcenterXMLA 170 kg hoop rolls along a horizontal floor so that the hoop's center of mass has aspeed of 1.75 m/s. How much Kinetic Energy, translational and rotational does thehoop have? The moment of inertia I for a hoop is MR².KE = 1/2 (170) x (1.75) + ½/2MLthe sout

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KErolling 1cm - = - - mv ²+ = -1 cm @² is related to the moment of inertia about the point of contact by the parallel axis theorem. is related to an if it is rolling withou! slipping. O 871 J O 521 J O 51 J O 3.15 J O 315 J esc syy t Houp 400.3 WENG Ø 1 = MR² Sold cynder det M₁² 1=MR² 1=MR² 12 50x4 Had dange The he sted center X ML m A 170 kg hoop rolls along a horizontal floor so that the hoop's center of mass has a speed of 1.75 m/s. How much Kinetic Energy, translational and rotational does the hoop have? The moment of inertia I for a hoop is MR². KE (170) x (1.75) + ½/2 X = se about ed

KErolling 1cm - = - - mv ²+ = -1 cm @² is related to the moment of inertia about the point of contact by the parallel axis theorem. is related to an if it is rolling withou! slipping. O 871 J O 521 J O 51 J O 3.15 J O 315 J esc syy t Houp 400.3 WENG Ø 1 = MR² Sold cynder det M₁² 1=MR² 1=MR² 12 50x4 Had dange The he sted center X ML m A 170 kg hoop rolls along a horizontal floor so that the hoop's center of mass has a speed of 1.75 m/s. How much Kinetic Energy, translational and rotational does the hoop have? The moment of inertia I for a hoop is MR². KE (170) x (1.75) + ½/2 X = se about ed