Problem 17.1 300 N Determine the reactions at A and B when cos(B)- 3/5 using the...
PROBLEM 4.28 800 mm Determine the reactions at A and C when (a) a-0, 300 N 200mm (b) a 30 (b) a 30 200 mm 300 N
1. 300 N is applied to the 60-kg cart. Determine A force of P the reactions at both the wheels at A and both the wheels When a rigid body undergoes only translation, all the particles of the body have the same acceleration so aG-a and ?-0 at B. Also, what is the acceleration of the cart? The massThe equations of motion become: center of the cart is at C Build moment equation both ways (at center of gravity and...
Determine the reactions at the support B using the Force Method Determine the reactions at the support B using the Force Method (0.5 pts) 500 lb/ft 28 12 ft
P= 200 N A 300 300 N b) (8 marks) The 300 N block A shown above is at rest on the horizontal plane when the force P is applied at t 0. The co-efficient of friction between the block and the plane is 0.2 i). Determine the acceleration of the block after the force P is applied. ii). Determine the velocity of the block when t 5 seconds ii). Determine the position of the block when t 5 seconds.
please try to write neat Determine the reactions at A and B using the force method and then draw shear force and bending moment diagrams for the members. Be sure to draw all Free Body Diagrams you need to use in the force method. Use the following equations as necessary. El is constant. (50 points) ? IC' 12
Problem 3: For the given loading, determine the zero-force members. Justify your answers using appropriate joint free-body diagrams. 400 N 300 N 3 m 12 m, 6@ 2 m
Problem 5 Determine the reactions at the supports and the force in all the members of the truss, indicate whether the force is in tension or compression. The values shown on the table apply. P1 0 P2 1000 N 15ºb 350 N a 3m 3 m c 1m D P2 Ha + 6+4 P1 Problem 6 Determine the following for the frame: a) The reactions at fixed support A. b) The reactions at pins C and E for member AE....
PROBLEM 1 Determine the reactions at A and B when (a) a=0, (b) a = 30°. 10 in. 10 in. B 750 lbiu. 12 in.
Problem 3.5 Determine the forces in all members of the below structure using the method of joints. Calculate the support reactions as needed and indicate the zero force members if any. 600 lb 450 lb YE 30° 3 ft 3 ft Problem 3.5 Determine the forces in all members of the below structure using the method of joints. Calculate the support reactions as needed and indicate the zero force members if any. 600 lb 450 lb YE 30° 3 ft...
Determine the reactions at point O when F2=300 N, L=0.1 m, and Mc=70 Nm. Note that force F2 is parallel to the plane 'XZ' . All reactions are positive with the vectors Noz,Vox,Voy,Mox,Moy,Toz pointing in the direction of the corresponding axis. Calculate: ∙ The normal force ( Noz ) at point O . ∙ The shear forces ( Vox , and Voy ) at point O . ∙ The bending moments ( Mox , and Moy ) at point O...