Two Forces are acting on a block of mass 7.0KG shown in the figure
Magnitudes of the forces are as F1=28N and F2=28N
What will be the horizontal acceleration of the block due to the net non-zero force?
Please show work
Two Forces are acting on a block of mass 7.0KG shown in the figure Magnitudes of...
A rod has two forces acting on it, as shown in the diagram. The magnitudes of F1 and F2 are 22.5 N and 35.7 N, respectively. If di 0.845 m, what should be the angle <d so that the net torque due to these two forces is zero about the axis indicated in the diagram? = 0.421 m and d2 d2 Axis the tolerance is +/-2%
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 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?
Problem 5: A block with a mass of m=37 kg rests on a frictionless surface and is subject to two forces acting on it. The first force is directed in the negative x-direction with a magnitude of F1=8.5 N. The second has a magnitude of F2 = 19.25 N and acts on the body at an angle θ = 17° measured from horizontal, as shown.Part (a) Please use the interactive area below to draw the Free Body Diagram for this...
Three forces of magnitudes F1=4.0N, F2=6.0N, and F3=8.0N are applied to a block of mass m=2.0kg, initially at rest, at angles shown on the diagram. (Figure 1)In this problem, you will determine the resultant (net) force by combining the three individual force vectors. All angles should be measured counterclockwise from the positive x axis (i.e., all angles are positive).Part ACalculate the magnitude of the resultant force \(\vec{F}_{\mathrm{r}}=\vec{F}_{1}+\vec{F}_{2}+\vec{F}_{3}\) acting on the block.Part BWhat angle does \(\vec{F}_{\mathrm{r}}\) make with the positive \(x\)...
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...
Consider a bar, of length 3.5 m, shown in the figure, being acted on by three forces. The magnitudes of the first two forces are 16 N and 24 N, and the first force is acting on the end of the bar at an angle of 49° as shown. Part (a) What is the torque, in newton-meters, due to F1 on this bar relative to the left end? Use a coordinate system with positive directed out of the screen. Part (b) What...
Consider a bar, of length 4.5 m, shown in the figure, being acted on by three forces. The magnitudes of the first two forces are 22 N and 35 N, and the first force is acting on the end of the bar at an angle of 28° as shown. Part (a) What is the torque, in newton-meters, due to F1 on this bar relative to the left end? Use a coordinate system with positive directed out of the screen. Part (b) What is the torque, in...
Consider a bar, of length 5.5 m, shown in the figure, being acted on by three forces. The magnitudes of the first two forces are 16 N and 29 N, and the first force is acting on the end of the bar at an angle of 29° as shown. Part (a) What is the torque, in newton-meters, due to F1 on this bar relative to the left end? Use a coordinate system with positive directed out of the screen. Part (b) What...
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...