3-52 | Chapter 3: Equilibrium of a Particle | Hibbeler Statics 14th ed | Engineers Academy
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Engineering Statics by Hibbeler 14th Edition
Chapter 3: Equilibrium of a Particle
Equilibrium of rigid bodies
Equilibrium Problems
*3-52. Determine the tension developed in cables AB and AC and the force developed along strut AD for equilibrium of the 400-lb crate.
3-53. If the tension developed in each cable cannot exceed 300 lb, determine the largest weight of the crate that can be supported. Also, what is the force developed along strut AD?
#EngineeringMechanics #EngineeringStatics #Statics #Hibbeler # Equilibrium Hibbeler Statics - Chapter Playlists
Chapter 2: Force Vectors - • Chapter 2: Force Vecto...
Chapter 3: Equilibrium of a Particle - • Chapter 3: Equilibrium...
Chapter 4: Force System Resultants - • Chapter 4: Force Syste...
Chapter 5: Equilibrium of a Rigid Body - • Chapter 5: Equilibrium...
Chapter 6: Structural Analysis - • Chapter 6: Structural ...
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sir i am from india i ahve a question that why ropes have pull tension whereas solid rod has push tension
Ropes are flexible not regid, u cannot push anything with the help of ropes. Try to push something with rope in ur real life.
@@EngineersAcademy2020 so sir iska matlab ki rod sirf push hi karti hai naa
@@mohitkrishnayadav8302 no for rod it depends on situation.
Sir may I ask that can we consider as (r AD) instead of (r DA)?
No the moment is about A
Thank you sir this video was helpful 😊
Most welcome 😊
How would I solve for the weight (W) if it was not given?? For my problem I have F and W unknown.
sir can you pls explain why t1 is in the negative y direction
thank you
You're welcome