DETAILS Viewing Saved Work Revert to Last Response 1. Which object reaches the bottom of the ramp first? O The solid cylinder They reach the bottom at the same time The block Consider an inclined ramp with a vertical height of 2.50m. Two objects are initially at rest at the top of the ramp: a 1kg block and a 1kg solid cylinder with radius 0.29m. Both are released at the same time, with the block sliding without friction and the solid cylinder rolling. Submit Answer 2. Determine the translational velocity of the solid cylinder when it reaches the bottom of the ramp. m S 3. How much angular momentum does the solid cylinder have at the bottom of the ramp? kg. m² S DETAILS MY NOTES Viewing Saved Work Revert to Last Response Sty ASK YOUR TEACHER MY NOTES ASK YOUR TEACHER

DETAILS Viewing Saved Work Revert to Last Response 1. Which object reaches the bottom of the ramp first? O The solid cylinder They reach the bottom at the same time The block Consider an inclined ramp with a vertical height of 2.50m. Two objects are initially at rest at the top of the ramp: a 1kg block and a 1kg solid cylinder with radius 0.29m. Both are released at the same time, with the block sliding without friction and the solid cylinder rolling. Submit Answer 2. Determine the translational velocity of the solid cylinder when it reaches the bottom of the ramp. m S 3. How much angular momentum does the solid cylinder have at the bottom of the ramp? kg. m² S DETAILS MY NOTES Viewing Saved Work Revert to Last Response Sty ASK YOUR TEACHER MY NOTES ASK YOUR TEACHER

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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Insert Table Chart Text Shape Media Comment IV. Does kinetic friction depend on the speed of the object? 1. Make a prediction. As the speed of the object increases, does the kinetic friction increase, decrease, or stay the same? Give a reason for your prediction. 2. Derive an equation Start with Newton's 2nd Law and derive an equation for the kinetic frictional force in terms of the m, M, g, and a. Show all your work. FR= mg-(m+M)a 3. Equipment Setup. Place the track on the table and put a block under each end. Slide the Motion Sensor onto the other end of the track. Attach the pulley to the end of the track at the edge of the table. The pulley height is adjustable. Connect the AC adapter to the 850 interface. Connect the USB cord to the interface and a USB port in the back of the laptop. Connect the cord of the Motion Sensor to PASPort1. 4. Measure the Mass of the Block. Use the balance scale to get the mass of your block. Record in the data table. 5. Get the type of material to be…
Engine workcontext You work in a road test company where they seek to optimize the performance of automobile engines. More precisely, you are trying to quantify the work of the engine when the car climbs a slope. Constraints The mass of the automobile is known.The initial (down the hill) and final (up) speeds of the car are known.The distance travelled by the car is known.The road the automobile is ascending slopes upward at a known angle to the horizontal.The combined effect of road friction and air resistance has been measured previously and can be considered known and constant (call it fr).It is assumed that the motor exerts a constant force. Schematization Draw a diagram of the object that interests us. Draw your x and y axes for this object. Draw and name each force experienced by the object of interest and identify its displacement. Modelization Using the concepts of work and energy, create a model to determine the work done by the motor, given known parameters. Then test your…
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