A uniform slender rod of length L is dropped onto rigid supports at A and B. Because support B is slightly lower than support A, the rod strikes A with a velocity
Fig. P17.111
(a)
Find the angular velocity of the rod and the velocity of its mass center immediately after the rod strikes support A.
Answer to Problem 17.111P
The angular velocity of the rod when mass center immediately after the rod strikes support A is
The velocity of the rod when mass center immediately after the rod strikes support A
Explanation of Solution
Given information:
The length of uniform slender rod is L.
The mass of uniform slender rod is m.
The initial velocity of bar before it strikes B is
Calculation:
Write the equation of centroidal moment of inertia
The impact is perfectly elastic at both A and B. Therefore, the coefficient of restitution is one
Write the impact condition for the given system after the rod strikes support A.
Here,
Write the equation of velocity of rod
Here,
Substitute
Consider the impulse and momentum principle.
Sketch the impulse and momentum diagram for the first impact at A of the bar as shown in Figure (1).
Here,
Refer Figure (1).
Take moment about A (positive sign in clockwise direction).
Substitute
Simplify the Equation:
Thus, the angular velocity of the rod and the velocity of its mass center immediately after the rod strikes support A is
Find the velocity of the rod when mass center immediately after the rod strikes support A using Equation (1).
Substitute
Thus, the velocity of the rod when mass center immediately after the rod strikes support A
(b)
Find the angular velocity of the rod and the velocity of its mass center immediately after the rod strikes support B.
Answer to Problem 17.111P
The angular velocity of the rod when mass center immediately after the rod strikes support B is
The velocity of the rod when mass center immediately after the rod strikes support B is
Explanation of Solution
Calculation:
Write the impact condition for the given system after the rod strikes support B.
Here,
Write the equation of velocity of rod
Here,
Substitute
Consider the impulse and momentum principle.
Sketch the impulse and momentum diagram for impact at B of the bar as shown in Figure (2).
Here,
Refer Figure (2).
Take moment about B (positive sign in clockwise direction).
Substitute
Thus, the angular velocity of the rod when mass center immediately after the rod strikes support B is
Find the velocity of the rod when mass center immediately after the rod strikes support B using Equation (2).
Substitute
Thus, the velocity of the rod when mass center immediately after the rod strikes support B
(c)
Find the angular velocity of the rod and the velocity of its mass center immediately after the rod strikes support A again.
Answer to Problem 17.111P
The angular velocity of the rod when mass center immediately after the rod strikes support A again is
The velocity of the rod when mass center immediately after the rod strikes support A again is
Explanation of Solution
Calculation:
Write the impact condition for the given system after the rod again strikes support A.
Here,
Write the equation of velocity of rod
Here,
Substitute
Consider the impulse and momentum principle.
Sketch the impulse and momentum diagram for second impact at A of the bar as shown in Figure (3).
Refer Figure (3).
Take moment about A (positive sign in clockwise direction).
Substitute
Thus, the angular velocity of the uniform slender rod after rod again strikes support A support B is
Find the velocity of rod at its mass center after the rod again strikes support A using Equation (3).
Substitute 0 for
Thus, the velocity of rod at its mass center after the rod again strikes support A is
Want to see more full solutions like this?
Chapter 17 Solutions
VECTOR MECH. FOR EGR: STATS & DYNAM (LL
Additional Engineering Textbook Solutions
Thinking Like an Engineer: An Active Learning Approach (3rd Edition)
HEAT+MASS TRANSFER:FUND.+APPL.
Fox and McDonald's Introduction to Fluid Mechanics
Introduction To Finite Element Analysis And Design
Mechanics of Materials
Manufacturing Engineering & Technology
- A 16-lb wooden panel is suspended from a pin support at A and is initially at rest. A 4-lb metal sphere is released from rest at B’ and falls into a hemispherical cup C’ attached to the panel at the same level as the mass center G. Assuming that the impact is perfectly plastic, determine the velocity of the mass center G of the panel immediately after the impact.arrow_forwardA bullet weighing 0.08 lb is fired with a horizontal velocity of 1800 ft/s into the lower end of a slender 15-lb bar of length L = 30 in. Knowing that h = 12 in. and that the bar is initially at rest, determine (a) the angular velocity of the bar immediately after the bullet becomes embedded, (b ) the impulsive reaction at C , assuming that the bullet becomes embedded in 0.001 s.arrow_forwardTwo uniform rods, each of mass m, form the L-shaped rigid body ABC, which is initially at rest on the frictionless horizontal surface when hook D of the carriage E engages a small pin at C. Knowing that the carriage is pulled to the right with a constant velocity v0, determine immediately after the impact (a) the angular velocity of the body, (b) the velocity of corner B. Assume that the velocity of the carriage is unchanged and that the impact is perfectly plastic.arrow_forward
- A large 3-lb sphere with a radius r = 3 in. is thrown into a light basket at the end of a thin, uniform rod weighing 2 lb and length L= 10 in. as shown. Immediately before the impact, the angular velocity of the rod is 3 rad/s counterclockwise and the velocity of the sphere is 2 ft/s down. Assume the sphere sticks in the basket. Determine after the impact (a) the angular velocity of the bar and sphere, (b) the components of the reactions at A.arrow_forwardA square plate of side a and mass m supported by a ball-and-socket joint at A is rotating about the y axis with a constant angular velocity ω = ω 0 j when an obstruction is suddenly introduced at B in the xy plane. Assuming the impact at B to be perfectly plastic (e = 0), determine immediately after the impact (a ) the angular velocity of the plate, (b ) the velocity of its mass center G.arrow_forwardA uniform rod of mass m and length 5 a is bent into the shape shown and is suspended from a wire attached at point B. Knowing that the rod is hit at point A in the negative y direction and denoting the corresponding impulse by determine immediately after the impact (a) the velocity of the mass center G, (b) the angular velocity of the rod.arrow_forward
- 17.86 A 65-lb uniform circular plate of radius r is supported by a ball- and-socket joint at point A and is at rest in the vertical xy plane when a bul- let weighing 0.03 lb is fired with the velocity vo -(700 ft/s)k and hits the 28 in., determine (a) the plate at point C. Knowing that r = 16 in. and h angular velocity of the plate immediately after the bullet becomes embed- ded. (b) the impulsive reaction at point A, assuming that the bullet becomes embedded in 1.1 ms. Fig. P17.86 y Barrow_forwardA bullet of mass m is fired with a horizontal velocity v0 and at a height h = ½ R into a wooden disk of much larger mass M and radius R . The disk rests on a horizontal plane and the coefficient of friction between the disk and the plane is finite. (a) Determine the linear V1 and the angular velocity w1 of the disk immediately after the bullet has penetrated the disk. (b) Describe the ensuing motion of the disk and determine its linear velocity after the motion has become uniform.arrow_forward196 A uniform slender rod AB is at rest on a frictionless horizontal table when end A of the rod is struck by a hammer which delivers an im- that is perpendicular to the rod. In the subsequent motion, determine distance b through which the rod will move each time it completes a full revolution. Fig. P17.96 Barrow_forward
- 14 in. 18 in. VB 1500 ft/s -18 in. A 0.05-lb bullet is fired into the side of a 20-lb square panel which is initially at rest. Determine a) the angular velocity of the panel immediately after the bullet becomes embedded and b) the impulsive reaction at A, assuming that the bullet becomes embedded in 0.0006 s. Barrow_forwardSphere A Mass m and radius r rolls without slipping with a velocity V1 on a horizontal surface when it hits squarely an identical sphere B that is at rest. Denoting by μk the coefficient of kinetic friction between the spheres and the surface, neglecting friction between the spheres, and assuming perfectly elastic impact, determine (a ) the linear and angular velocities of each sphere immediately after the impact, (b) the velocity of each sphere after it has started rolling uniformly.arrow_forwardA slender rod of length l and weight W is pivoted at one end as shown. It is released from rest in a horizontal position and swings freely. (a ) Determine the angular velocity of the rod as it passes through a vertical position and determine the corresponding reaction at the pivot. (b ) Solve part a for W = 1.8 lb and l = 3 ft.arrow_forward
- Elements Of ElectromagneticsMechanical EngineeringISBN:9780190698614Author:Sadiku, Matthew N. O.Publisher:Oxford University PressMechanics of Materials (10th Edition)Mechanical EngineeringISBN:9780134319650Author:Russell C. HibbelerPublisher:PEARSONThermodynamics: An Engineering ApproachMechanical EngineeringISBN:9781259822674Author:Yunus A. Cengel Dr., Michael A. BolesPublisher:McGraw-Hill Education
- Control Systems EngineeringMechanical EngineeringISBN:9781118170519Author:Norman S. NisePublisher:WILEYMechanics of Materials (MindTap Course List)Mechanical EngineeringISBN:9781337093347Author:Barry J. Goodno, James M. GerePublisher:Cengage LearningEngineering Mechanics: StaticsMechanical EngineeringISBN:9781118807330Author:James L. Meriam, L. G. Kraige, J. N. BoltonPublisher:WILEY