Concept explainers
(a)
The resultant force.
(a)
Answer to Problem 3.139P
The resultant force is
Explanation of Solution
Write the equation of the distance between AC.
Here, the distance between AC is
Write the equation of the distance between BD.
Here, the distance between BD is
Write the equation of the momentum about AC.
Here, the momentum about AC is
Write the equation of the momentum about BD.
Here, the momentum about BD is
Write the equation of resultant force.
Here, the resultant force is
Conclusion:
Substitute,
Substitute,
Substitute,
Substitute,
Substitute,
The magnitude of the resultant force,
Thus, the resultant force is
(b)
The pitch of the wrench.
(b)
Answer to Problem 3.139P
The pitch of the wrench is
Explanation of Solution
Write the equation of pitch of the wrench.
Here, the pitch of the wrench is
Since, the
Here, the constant is
Write the expression for the constant is,
Write the equation of momentum.
Here, the momentum is
Rewrite the expression for the momentum of the wrench is,
Conclusion:
Substitute,
Substitute,
Thus, the pitch of the wrench is
(c)
The point at which the axis of wrench intersects the yz-plane.
(c)
Answer to Problem 3.139P
The axis of wrench intersects the yz-plane at
Explanation of Solution
The diagram for the force-couple system is given below:
Refer fig 1,
Write the equation for the force couple system for the wrench.
Here, the momentum is
Write the expression for the momentum at which the wrench intersects the xz-plane.
Here, the position
Write the expression for the position vector is,
Here, the coordinates are
Conclusion:
Substitute,
Substitute,
Substitute,
Comparing the coefficients of the y and z components both sides,
Therefore, the axis of wrench intersects the yz-plane at
Want to see more full solutions like this?
Chapter 3 Solutions
VEC MECH 180-DAT EBOOK ACCESS(STAT+DYNA)
- The trapdoor is held in the horizontal plane by two wires. Replace the forces in the wires with an equivalent force R that passes through point A, and determine the y-coordinate of point A.arrow_forwardKnowing that the resultant of the two forces is vertical, determine the anglearrow_forwardThe pole OB is subjected to the 6004b force at B. Determine (a) the rectangular components of the force; and (b) the angles between the force vector and the coordinate axes.arrow_forward
- The combined moment of the two forces, each of magnitude P, about point A is zero. Determine the distance d that locates A.arrow_forwardThe force-couple system acting at O is equivalent to the wrench acting at A. If R=600i+1400j+700klb and |C|=1200lbft, determine CR.arrow_forwardTo move the oil drum, the resultant of the three forces shown must have a magnitude of 500 N. Determine the magnitude and direction of the smallest force F that would cause the drum to move.arrow_forward
- Determine the magnitude of the resultant force F(R). Determine the angle between the resultant force and the x axis. And finally specify where the resultant’s line of action intersects member AB, measured from point A. (y = ….. ft above A)arrow_forwardB 4. The man pulls on the rope at C with a force FA of 70 lb which causes the forces FA and FC Fc at B to have this same magnitude. 8 ft Determine the magnitude and coordinate 5t direction angles of the resultant force 5 ft, 1 ft acting at B. 7 ft 4 ft 7 ft 5 ftarrow_forwardThe combined action of the three forces on the base at O may be obtained by establishing their resultant through O. Determine the magnitudes of R and the accompanying couple M. Assume Fy = 490 Ib, F2 = 330 lb, F = 530 lb, a = 7.9 ft, b = 2.9 ft, c = 3.6 ft, and 0 = 38°arrow_forward
- O5) The motor mounted on the bracket is acted on by its 300 N weight, and its shaft resists the 200 N thrust and 25 N.m couple applied to it. Determine the resultant of the force system shown in terms of a force R at A and a couple M. 300 mm 100 mm 300 N 25 N.m 100 mm 200 N 150 mmarrow_forwardPlease help me with this question ?arrow_forward3. The rectangular block is to be pulled out of the ground using two strings A and B. String A is subjected to a force of 600 lb and is directed 60 degrees with the +x- axis. If the net force acting on the block is to be 1200 Ib, vertically upward, solve for the force T in string B and its direction angle 0. 600 Ib 60°arrow_forward
- International Edition---engineering Mechanics: St...Mechanical EngineeringISBN:9781305501607Author:Andrew Pytel And Jaan KiusalaasPublisher:CENGAGE L