Exam 2: Tonight 8:20-10:10pm • Room Assignments: • Breakdown of the 20 Problems Last Name Room Material # of Problems A-E NRN 137 Chapter 6 3 F-K TUR L007 Chapter 7 4 L-O WEIM 1064 Chapter 8 5 P-S CLB C130 Chapter 9 6 T-Z MCCC 100 Chapter 10 2 • Crib Sheet: • Calculator: You may bring a single hand written formula sheet on 8½ x 11 inch paper (both sides). You should bring a calculator (any type). • Scratch Paper: R. Field 11/8/2013 University of Florida We will provide scratch paper. PHY 2053 Page 1 Exam 2 Fall 2010: Problem 9 • A projectile is fired straight upward from Earth's surface with a speed that is half the escape speed. If R is the radius of Earth, the highest altitude reached, measured from the surface of the Earth, is: Answer: R/3 % Right: 9% Ei Ei mv 2 esc Ef 0 v esc 2 GM R. Field 11/8/2013 University of Florida m ( v esc / 2 ) RE GM E m r E f Ei GM E m RE GM E m 2 Ef Escape Speed 1 2 1 2 GM E m r 1 2 m ( v esc / 2 ) 2 r E 4 3 GM E m RE PHY 2053 GM E m RE RE h r RE RE ( 14 1) 1 3 RE Page 2 Final Exam Spring 2011: Problem 12 • A uniform disk with mass M, radius R = 0.50 m, and moment of inertia I = MR2/2 rolls without slipping along the floor at 2 revolutions per second when it encounters a long ramp angled upwards at 45o with respect to the horizontal. How high above its original level will the center of the disk get (in meters)? Answer: 3.0 % Right: 39% Ei 1 2 Mv 2 v v H R 1 2 x-axis I MgR E f Mg ( H R ) 2 v R 2 f 1 2 I 1 2 2 I 2 2 H v R 2g M M 2g 2 R I 1 2g MR I 2 2 R 1 g MR 2 2 R. Field 11/8/2013 University of Florida 2 2 f 2 ( 0 .5 m ) 3 2 ( 2 / s ) 3 .0 m 2 9 .8 m / s 2 2 2 PHY 2053 2 Page 3 Exam 2 Spring 2012: Problem 39 • A modern sculpture has a large horizontal spring, that is attached to a 60-kg piece of uniform metal at its end and holds the metal at rest at an angle of θ = 60° above the horizontal direction as shown in the figure. The other end of the metal is wedged into a corner and is free to rotate. If the spring is stretched 0.2 m what is the spring constant k (in N/m)? sin( A B ) sin A cos B cos A sin B Answer: 849 % Right: 31% kx Lk x sin L Mg cos 0 2 k Mg 2x 2 cot ( 60 kg )( 9 . 8 m / s ) cot( 60 ) 849 N / m 2 ( 0 .2 m ) Mg R. Field 11/8/2013 University of Florida PHY 2053 Page 4 Exam 2 Fall 2011: Problem 17 • A cloth tape is wound around the outside of a nonuniform solid cylinder (mass M, radius R) and fastened to the ceiling as shown in the figure. The cylinder is held with the tape vertical and then release from rest. If the acceleration of the center-of-mass of the cylinder is 3g/5, what is its moment of inertia about its symmetry axis? R 2 Answer: 23 MR % Right: 48% Mg FT Ma y RF T I FT M ( g a y ) Ia y R R FT y-axis Mg 2 I R FT ay R. Field 11/8/2013 University of Florida g ay a y MR 2 g 53 g MR 3g 5 PHY 2053 2 2 3 MR 2 Page 5 Exam 2 Fall 2010: Problem 13 • A uniform plank is 6 m long and weighs 80 N. It is balanced on a sawhorse at its center. An additional 160 N weight is now placed on the left end of the plank. To keep the plank balanced, the sawhorse must be moved what distance to the left? Answer: 2 m % Right: 48% Mg 80 N L mg d Mgd 0 2 mg Mg mg 160 N L 6m R. Field 11/8/2013 University of Florida L/2 d mg d mg Mg L 160 N L 1 L 2m 2 80 N 160 N 3 2 PHY 2053 Page 6 Exam 2 Fall 2011: Problem 10 Before • Two pendulum bobs have masses MA = 3 kg and MB = 2 kg and equal lengths L as shown in the figure. Bob A is initially held horizontally while bob B hangs vertically at rest. Bob A is released and collides with bob B. The two masses then stick together and swing upward to the right to a maximum angle . What is the maximum swing 2 angle ? v 2 2 gL E M gL E 1 M v 1 50.2o Answer: % Right: 31% Ei h 1 2 (M A 2 pi M Av2 M M B )V MA 2g M A M V A 2 2 2 B E f (M L A A 2 M B ) gh A M B )V h L (1 cos ) h MA cos 1 1 L MAM L B After B 1 L A 90o L 2 A V A+B After L A+B Lcos h PHY 2053 L A+B 2 9 16 1 25 25 A 90 2 2 gL p f ( M 50 . 2 R. Field 11/8/2013 University of Florida A L o Page 7 Final Exam Fall 2010: Problem 12 • A block of mass m is attached to a cord that is wrapped around the rim of a flywheel of radius R and hangs vertically, as shown. The rotational inertia of the flywheel is I = MR2/2. If when the block is released and the cord unwinds the acceleration of the block is equal to g/2, what is the mass m of the block? Answer: M/2 % Right: 51% s R v R a R R. Field 11/8/2013 University of Florida m mg FT ma y FT I RF T mg I R 2 I R R I R 2 ay M FT a y ma y I ay m 2 R g a y m y-axis 1 2 MR R 2 PHY 2053 2 12 g g1g 2 1 2 mg M Page 8 Exam 2 Fall 2010: Problem 16 • A mouse of mass M/6 lies on the rim of a solid uniform disk of mass M that can rotate freely about its center like a merry-go-round. Initially the mouse and disk rotate together with an angular velocity of . If the mouse walks to a new position that is at the center of the disk what is the new angular velocity of the mouse-disk system? Final Initial m Answer: 4/3 % Right: 58% L f I f f I disk f R R L i I i i ( I disk mR ) 2 I disk new ( I disk mR ) 2 new 2 2 mR mR 1 1 2 1 I MR disk 2 R. Field 11/8/2013 University of Florida Li L f PM Note that energy is not conserved in this problem! 2m 1 M m PM E E f Ei 2 4 3 PHY 2053 Lf 2I f 2 Li 2Ii 1 9 MR 2 Page 9 2 Exam 2 Fall 2010: Problem 20 • Suppose that you release a small ball from rest at a depth of 39.2 m below the surface in a pool of water (with density rwater) near the surface of the Earth. If the density of the ball is 1/3 the density of water, how long does it take the ball to reach the surface? Answer: 2 s % Right: 53% d t 1 2 a yt 2 M water d y-axis ay ay R. Field 11/8/2013 University of Florida r water r ball r ball Mg t g M ball g M ball a y r water V ball g r ball V ball g r ball V ball a y Fbuoyancy 2d water 2d r water 1 g r ball r water g 1 g r ball 2 ( 39 . 2 m ) 3 1 ( 9 . 8 m / s PHY 2053 2 4s 2 2s ) Page 10 Final Exam Fall 2010: Problem 13 • A block of wood has a mass of 4 kg and density of 600 kg/m3. It is loaded on top with lead (density = 11,400 kg/m3) so that the block of wood will float in water with 90% of its volume submerged. What is the mass of the lead if the water density is 1,000 kg/m3? Answer: 2 kg % Right: 46% Mlead Fbuoyancy M water g ( M wood M lead ) g ( M wood M lead ) a y 0 M lead M water M wood M wood V sub r water V wood r wood V sub r water M M wood 0 . 9 (1, 000 kg / m 3 ) M 1 3 600 kg / m R. Field 11/8/2013 University of Florida wood Mwood wood V r sub water 1 M V wood r wood 1 2 M y-axis wood PHY 2053 (Mwood+Mlead)g wood water 2 kg Page 11 Exam 2 Fall 2010: Problem 19 • An object hangs from a spring balance. When submerged in water the object weighs one-half what it weighs in air. If when submerged in an unknown liquid with density rX the object weighs three-fourths what it weighs in air, what is the density of the unknown liquid? 1 Answer: 2 r water % Right: 41% Air Fspring = W0 r water R. Field 11/8/2013 University of Florida W 0 W water r water Vg Mg Mg W 0 W liquid M liquid g r liquid Vg Fspring = Wliquid Fbuoyancy W 0 Mg rX W liquid Mg M liquid g 0 Liquid W0 W X W 0 W water W 0 W X r X Vg W 0 34 W 0 W0 W0 PHY 2053 1 2 1 2 Page 12