A 20-kg object is subjected to three forces which produce an acceleration a = -8 m.s-2 i + 6.0 m.s-2j on the object. Two of the forces are:
F1 = 3.0 N i + 16.0 N j
F2 = -12.0 N i+ 8.0 N j
Find the third force.
A 20-kg object is subjected to three forces which produce an acceleration a = -8 m.s-2...
A 1.70 kg object is subjected to three forces that give it an acceleration a = (1.40 m/s^2)i + (4.50 m/s^2)j. If two of the three forces are F_1 = (28.0 N)i + (10.0 N)j and F_2 = (14.0N)i + (9.30 N)j, find (a) the x component and (b) the y component of the third force. (a) Number Units (b) Number Units
A 10 kg object on a frictionless table is subjected to two horizontal forces, F1 and F2, with magnitudes F1 = 22 N and F2 = 38 N, as shown in Figure 4-28. 10kg 30 Figure 4-28 (a) Find the acceleration a of the object (0.3 (b) A third force F3 is applied so that the object is in static equilibrium. Find F3 x i)m/s2 i1.64545 X (-41 x i) N |-32.909
A 10 kg object on a frictionless table...
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.
A 5-kg object is subjected to two forces F1 = 5 N i + 12 N j and F2 = -10 N i + 7 N j. (a) What is the net force on the object?, (b) What is the acceleration produced by this net force? (c) If the object is at rest at the origin at t = 0, where is the object at time t = 5.0 s?
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 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
Chapter 05, Problem 008 and A 1.90 kg object is subjected to three forces that give it an acceleration a = (1.30 m/s2)+ (6.30 m/s2 )). 1 two of the three forces are 7, = (23.0N) + (10.0N)) . 7,- (14.0N)i + (9.40N)), and (a) the x component and (b) tha y component of the the third force. (a) Number Units (b) Number Units
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).
FIGURE 5-4 2 30 30° F2 =40.0 N, and Three applied forces, 1 inclined plane as shown in the figure. The questions refer to the instant when the object has moved 0.600 m along the surface of the F3 20.0 N 10.0 N act on an object with a mass of 2.00 kg which can move along an inclined plane in the upward direction. Neglect friction and use g = 10.0 m/ F1 as the object moves up the inclined...
Problem-1.2 The hook shown in the Figure below is subjected to three forces shown in F1, F2 and F3. a) Find the resultant of the force F1 and F2 and call it FA. Use parallelogram law to find the magnitude and direction of the force FA b) Find the magnitude and direction of the force F3, if the resultant FR of the all three forces is 750 N and it is directed along the x-axis.