Two forces, F1 and F2, act on the m = 6.50 kg block shown in the drawing below.
The magnitudes of the forces are F1 = 64.7 N and F2 = 31.7 N. θ = 73.5°. What is the magnitude of the horizontal acceleration of the block?
Two forces, F1 and F2, act on the m = 7.29 kg block shown in the figure above. The magnitudes of the forces are F1 = 62.0 N and F2 = 36.4 N. theta = 68.6 deg. What is the magnitude of the horizontal acceleration of the block?
Two forces F1 and F2 act on a 6.20-kg object. F1 = 25.0 N and F2 = 16.0 N.(a) Find the acceleration of the object for the configuration of forces shown in Figure (a). (b) Find the acceleration of the object for the configuration of forces shown in Figure (b).
two forces F1 and F2 act on a 6.80-kg object. F1=30.0 N and F2 = 11.0 N. (a) Find the acceleration of the object for the configuration of forces shown in figure (a)(b) Find the acceleration of the object for the configuration of forces shown in Figure (b).
16. Two forces F, and F2 act on the 8.5kg block shown in the drawing below in addition to the normal force and gravity. The magnitudes of the forces are F1-55N and F2 = 20N which is the friction. a. Use the blank x,y graph to the right below to depict all of the forces acting on the block. Hint: Draw all of the forces originating from the origin, and be assured that the object will not travel downward through...
1) Two forces F1 and F2 acting on a 40 kg crate have values 150 N and 210 N respectively. The angle between them is 50 degree, with F1 acting in the horizontal direction, as shown in the diagram below. Calculate a) the horizontal component acceleration of the block b) the vertical component acceleration of the block c) the magnitude and direction of the total acceleration
Two forces, F1 and F2, act on a 1.00 kg object where F1 = 20.0 N and F2 = 12.0 N. (a) Find the acceleration in Figure P5.11a(b) Find the acceleration in Figure P5.11
Two forces, of magnitudes F1 = 95.0 N and F2 = 45.0 N , act in opposite directions on a block, which sits atop a frictionless surface, as shown in the figure. (Figure 1) Initially, the center of the block is at position xi = -1.00 cm . At some later time, the block has moved to the right, and its center is at a new position, xf = 6.00 cm . Part A Find the work W1 done on...
Two forces F1 and F2 are acting on a mass M=5.0 kg. The force F1 = 9.0i + 6.0j + 4.0k, in N. The acceleration of the mass is given by a = 1.0i + 3.0j + 3.0k, in m/s2. Calculate the magnitude of F2.
two forces F1 and F2 act on a body of mass 12-kg. F1=7iN and F2=12jN. What are the magnitude and direction relative to the +x axis?
A 10 kg object is subjected to two forces F1 and F2. F1 has a magnitude of 20 N and acts straight upward and F2 has a magnitude of 30 N at 30 degrees below the horizontal from the positive x axis. Find the acceleration of the object. A third force F3 is applied so that the object is in static equilibrium. Find F3.