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### Prob15116

Course: EGM 3400, Summer 2010
School: University of Florida
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Complete COSMOS: Online Solutions Manual Organization System Chapter 15, Problem 116. The 5-in.-radius drum rolls without slipping on a portion of a belt which moves downward to the left with a constant velocity of 6 in./s. Knowing that at a given instant the velocity and acceleration of the A center of the drum are as shown, determine the acceleration of point D. Vector Mechanics for Engineers: Statics and...

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Complete COSMOS: Online Solutions Manual Organization System Chapter 15, Problem 116. The 5-in.-radius drum rolls without slipping on a portion of a belt which moves downward to the left with a constant velocity of 6 in./s. Knowing that at a given instant the velocity and acceleration of the A center of the drum are as shown, determine the acceleration of point D. Vector Mechanics for Engineers: Statics and Dynamics, 8/e, Ferdinand P. Beer, E. Russell Johnston, Jr., Elliot R. Eisenberg, William E. Clausen, David Mazurek, Phillip J. Cornwell 2007 The McGraw-Hill Companies.
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University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 117.Collar D slides on a fixed horizontal rod with a constant velocity of 1.2 m/s to the right. Knowing that at the instant shown x = 200 mm, determine (a) the angular accel
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 118.Collar D slides on a fixed horizontal rod with a constant velocity of 0.6 m/s to the right. Knowing that at the instant shown x = 0, determine (a) the angular accelerati
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 119.Knowing that crank AB rotates about point A with a constant angular velocity of 900 rpm clockwise, determine the acceleration of the piston P when = 60.Vector Mechanics
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 120.Knowing that crank AB rotates about point A with a constant angular velocity of 900 rpm clockwise, determine the acceleration of the piston P when = 120.Vector Mechanic
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 121.Arm AB has a constant angular velocity of 16 rad/s counterclockwise. At the instant when = 0, determine the acceleration (a) of collar D, (b) of the midpoint G of bar BD
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 122.Arm AB has a constant angular velocity of 16 rad/s counterclockwise. At the instant when = 90, determine the acceleration (a) of collar D, (b) of the midpoint G of bar B
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 123.Collar D slides on a fixed vertical rod. Knowing that the disk has a constant angular velocity of 15 rad/s clockwise, determine the angular acceleration of bar BD and th
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 124.In the two-cylinder air compressor shown the connecting rods BD and BE are each 7.5 in. long and crank AB rotates about the fixed point A with a constant angular velocit
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 125.Knowing that at the instant shown bar AB has a constant angular velocity of 5 rad/s counterclockwise, determine (a) the angular acceleration of bar BD, (b) the angular a
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 126.Knowing that at the instant shown bar AB has a constant angular velocity of 4 rad/s clockwise, determine the angular acceleration (a) of bar BD, (b) of bar DE.Vector Me
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 127.Knowing that at the instant shown bar AB has a constant angular velocity of 19 rad/s clockwise, determine (a) the angular acceleration of bar BGD, (b) the angular accele
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 128.Knowing that at the instant shown bar DE has a constant angular velocity of 18 rad/s clockwise, determine (a) the acceleration of point B, (b) the acceleration of point
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 129.The cross BHDF is supported by two links AB and DE. Knowing that at the instant shown link AB rotates with a constant angular velocity of 4 rad/s clockwise, determine (a
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 130.At the instant shown the angular velocity of bar DE is 4 rad/s clockwise and its angular acceleration is 10 rad/s 2 counterclockwise. Determine (a) the angular accelerat
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 131.For the linkage of Prob. 15.68, determine the angular acceleration (a) of bar BD, (b) of bar DE.Vector Mechanics for Engineers: Statics and Dynamics, 8/e, Ferdinand P.
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 132.Knowing that at the instant shown rod AB has a constant angular velocity of 15 rad/s counterclockwise, determine (a) the angular acceleration of rod DE, (b) the accelera
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 133.Solve the problem indicated making full use of the vector approach as done in Sample Prob. 15.8. Problem 15.126: Knowing that at the instant shown bar AB has a constant
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 134.Solve the problem indicated making full use of the vector approach as done in Sample Prob. 15.8. Problem 15.132: Knowing that at the instant shown rod AB has a constant
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 135.Denoting by rA the position vector of point A of a rigid slab that is in plane motion, show that (a) the position vector rC of the instantaneous center of rotation isrC
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 136.Crank AB rotates counterclockwise with a constant angular velocity . Using the method of Sec. 15.9, derive an expression for the angular velocity of rod DE in terms of a
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 137.Collar D slides on a fixed vertical rod. The disk rotates with a constant clockwise angular velocity . Using the method of Sec. 15.9, derive an expression for the veloci
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 138.Collar D slides on a fixed vertical rod. The disk rotates with a constant clockwise angular velocity . Using the method of Sec. 15.9, derive an expression for the angula
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 139.A disk of radius r rolls to the right with a constant velocity v. Denoting by P the point of the rim in contact with the ground at t = 0, derive expressions for the hori
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 140.Rod AB moves over a small wheel at C while end A moves to the right with a constant velocity v A. Using the method of Sec. 15.9, derive expressions for the angular veloc
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 141.Rod AB moves over a small wheel at C while end A moves to the right with a constant velocity v A. Using the method of Sec. 15.9, derive expressions for the horizontal an
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 142.Pin C is attached to rod CD and slides in a slot cut in arm AB. Knowing that rod CD moves vertically upward with a constant velocity v0, derive an expression for the ang
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 143.The position of rod AB is controlled by a disk of radius r which is attached to yoke CD. Knowing that the yoke moves vertically upward with a constant velocity v0, deriv
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 144.Crank AB rotates with a constant clockwise angular velocity . Using the method of Sec. 15.9, derive expressions for the angular velocity of rod BD and the velocity of th
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 145.Crank AB rotates with a constant clockwise angular velocity . Using the method of Sec. 15.9, derive an expression for the angular acceleration of rod BD in terms of , ,
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 146.A wheel of radius r rolls without slipping along the inside of a fixed cylinder of radius R with a constant angular velocity . Denoting by P the point of the wheel in co
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 147.In Prob. 15.146, show that the path of P is a vertical straight line when r = R/2. Derive expressions for the corresponding velocity and acceleration of P at any time t.
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 148.Two rotating rods are connected by slider block P. The rod attached at A rotates with a constant clockwise angular velocity A. For b = 300 mm and A = 10 rad/s, determine
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 149.The motion of pin P is guided by slots cut in rods AE and BD. Knowing that the rods rotate with the constant angular velocities A = 4 rad/s clockwise and B = 5 rad/s clo
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 150.Pin P is attached to the wheel shown and slides in a slot cut in bar BD. The wheel rolls to the right without slipping with a constant angular velocity of 20 rad/s. Know
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 151.Pin P is attached to the wheel shown and slides in a slot cut in bar BD. The wheel rolls to the right without slipping with a constant angular velocity of 20 rad/s. Know
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 152.Knowing that at the instant shown the angular velocity of bar AB is 15 rad/s clockwise and the angular velocity of bar EF is 10 rad/s clockwise, determine (a) the angula
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 153.Knowing that at the instant shown the angular velocity of rod DE is 10 rad/s clockwise and the angular velocity of bar EF is 15 rad/s counterclockwise, determine (a) the
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 154.Bar AB rotates clockwise with a constant angular velocity of 8 rad/s and rod EF rotates clockwise with a constant angular velocity of 6 rad/s. Determine at the instant s
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 155.Bar AB rotates clockwise with a constant angular velocity of 4 rad/s. Knowing that the magnitude of the velocity of collar D is 20 ft/s and that the angular velocity of
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 156.In the automated welding setup shown, the position of the two welding tips G and H is controlled by the hydraulic cylinder D and rod BC. The cylinder is bolted to the ve
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 157.In Prob. 15.156, determine (a) the velocity of tip G, (b) the acceleration of tip G. Problem 15.156: In the automated welding setup shown, the position of the two weldin
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 158.Four pins slide in four separate slots cut in a circular plate as shown. When the plate is at rest, each pin has a velocity directed as shown and of the same constant ma
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 159.Solve Prob. 15.158, assuming that the plate rotates about O with a constant clockwise angular velocity . Problem 15.158: Four pins slide in four separate slots cut in a
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 160.Pin P is attached to the collar shown; the motion of the pin is guided by a slot cut in bar BD and by the collar that slides on rod AE. Rod AE rotates with a constant an
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 161.Pin P is attached to the collar shown; the motion of the pin is guided by a slot cut in bar BD and by the collar that slides on rod AE. Bar BD rotates with a constant an
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 162.A rocket sled is tested on a straight track that is built along a meridian. Knowing that the track is located at latitude 40 north, determine the Coriolis acceleration o
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 163.The cage of a mine elevator moves downward at a constant speed of 12.2 m/s. Determine the magnitude and direction of the Coriolis acceleration of the cage if the elevato
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 164.Collar P slides toward point A at a constant relative speed of 6 ft/s along rod AB which rotates counterclockwise with a constant angular velocity of 5 rad/s. At the ins
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 165.Collar P slides toward point A at a constant relative speed of 9.6 ft/s along rod AB which rotates clockwise with a constant angular velocity of 4 rad/s. At the instant
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 166.The motion of nozzle D is controlled by arm AB. At the instant shown the arm is rotating counterclockwise at the constant rate = 2.4 rad/s and portion BC is being extend
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 167.Solve Prob. 15.166, assuming that the direction of the relative velocity u is reversed so that portion BD is being retracted. Problem 15.166: The motion of nozzle D is c
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 168.Collar E slides toward point A with a constant relative speed of 3 m/s along rod AB which rotates counterclockwise with a constant angular velocity of 15 rad/s. At the i
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 169.Collar E slides away from point A with a constant relative speed of 2 m/s along rod AB which rotates clockwise with a constant angular velocity of 10 rad/s. At the insta
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 170.Pin P slides in a circular slot cut in the plate shown at a constant relative speed u = 180 mm/s. Knowing that at the instant shown the plate rotates clockwise about A a
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 171.The collar P slides outward at a constant relative speed u along rod AB, which rotates counterclockwise with a constant angular velocity of 20 rpm. Knowing that r = 10 i
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 172.Rod AD is bent in the shape of an arc of a circle of radius b = 150 mm. The position of the rod is controlled by pin B which slides in a horizontal slot and also slides
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 173.Solve Prob. 15.172 when = 90. Problem 15.172: Rod AD is bent in the shape of an arc of a circle of radius b = 150 mm. The position of the rod is controlled by pin B whic
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 174.Pin P is attached to the wheel shown and slides in a slot cut in bar BD. The wheel rolls to the right without slipping with a constant angular velocity of 20 rad/s. Know
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 175.Pin P is attached to the wheel shown and slides in a slot cut in bar BD. The wheel rolls to the right without slipping with a constant angular velocity of 20 rad/s. Know
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 176.The disk shown rotates with a constant clockwise angular velocity of 12 rad/s. At the instant shown, determine (a) the angular velocity and angular acceleration of rod B
University of Florida - EGM - 3400
COSMOS: Complete Online Solutions Manual Organization SystemChapter 15, Problem 177.Collar B slides along rod AC and is attached to a block that moves in a vertical slot. Knowing that R = 18 in., = 30 , = 6 rad/s, and = 4 rad/s 2 , determine the velocit