Magnitude of the force P is 75lb.
Determine the resultant of the three forces applied at A.
Magnitude of the force P is 75lb. Determine the resultant of the three forces applied at...
Determine the magnitude of force F so that the resultant force of the three forces is as small as possible. What is the magnitude of the resultant force?
Three forces are applied by cables on an i-bolt as shown. Find the resultant force (magnitude and angle) given the following: F1-600 N, F2-800 N, F3-450 N, θ,-60°, θ,-45°, θ,-75° 1. Fi F2 0,
Two forces act on the hook. Determine the magnitude of the resultant force.
Determine the resultant (magnitude and direction of the three forces shown. All forces are in kips. q 60 -- 20
Determine the magnitude and direction theta of F1 so that the resultant force of all three forces is directed vertically upward in the y direction and has a magnitude of 800 N.
3. Determine the resultant force R of the two forces applied at point A. Fi = 3 kN 30 A F=7KN A.
with a diagram 3. Determine the resultant force R of the two forces applied at point A. Fi = 3 kN 30 A F=7KN A.
Determine the required tension in cable BC if the resultant of the three forces exerted at Point B is to be vertical. The required tension in cable BC is _____N Determine the corresponding magnitude of the resultant. The corresponding magnitude of the resultant is _____N Consider the force system shown in the figure below where P = 530 N. - 840 mm - L= 1160 mm 800 mm B 780 N
P.2 Two forces are applied as shown to a hook support. Knowing that the magnitude of P is 35 N, determine by trigonometry (a) the required angle a if the resultant R of the two forces applied to the support is to be horizontal, (b) the corresponding magnitude of R. Cs 25°
Two forces are applied as shown to a hook support. Knowing that the magnitude of P is 35 N, determine by trigonometry (a) the required angle α if the resultant R of the two forces applied to the support is to be horizontal, (b) the corresponding magnitude of R.