Engineering Mechanics: Statics | Chapter 7: Internal Forces | problem: F7-10 | Page 365

8-63 Determine the minimum applied force P so that the wedge will move to the right with given k.

7-1 Determine the shear force and moment at points C a nd D.

7-7 Determine the internal shear force and moment acting at point C in the beam.

8-49 Determine if the person with a giving mass whether or not he can move or tip over the box.

8-50 Determine the smallest mass of the man so he can move the crate and if the crate will tip over.

Week 1 Cartesian Vectors

8-3 Determing if a mine car will move due to friction against pulling force & find its normal force.

Force System Resultants - Simplification of a force and couple system - Hibbeler P4-6

Chapter 2|Force Vector |Part 2 | solved examples and problems| RC Hibbeler 12th

(مصدر هبلر ستاتك+الحلول)Hibbeler R. C., Engineering Mechanics, Statics with solution manual

6-3 Determine the force in members of the truss (state tension or compression for each member).

5-69 Determine the tensions and the components of reaction at D needed to support the load.

8-16 Determine the inclination Θ of the ladder with given μ that is resting on a smooth wall.

5-65 Determine the normal forces generated by a mulching machine's wheels.

12-1 Find the velocity of a particle when t = 6s and position at 11s, with a = (2t - 6)m/2^2

6-38 Determine the force in members of the truss, state if they are in tension or compression.

7-19 Determine the internal normal force, shear force, and moment at point C.

8-62 Determine the minimum compression in the spring so that the wedge will not move to the right.

Week 3 Force Couple Systems