Determine the magnitude and direction theta of F so that the particle is in equilibrium.
2. Determine the magnitude and directionof F so that the particle is in equilibrium 7 EN 3 kN Figure 2
4. Determine the magnitude and angle Bof F so that the particle is in equilibrium. 45kN 225 IN 75 N Figure 4
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.
Part A) If theta= 58 degrees and F=500 N, determine the
magnitude of the resultant force. Part B) If theta= 58 degrees and
F=500 N, determine the resultant force direction, measured
counterclockwise from the positive x axis.
Q.3 Determine the two forces Fi and F2 so that the particle F is in equilibrium. F, 40 20° F 60 1b tv.
Q.3 Determine the two forces Fi and F2 so that the particle F is in equilibrium. F, 40 20° F 60 1b tv.
15125. Determine the force (magnitude and direction) on an a particle that is traveling at a speed of v = 9.50x10's in the plane of the paper and suddenly enters a uniform 5.04 T magnetic field that is oriented, as shown by the dots ( perpendicular to the paper. (Note: an a particle consists of 2 protons and two neutrons.) Answer OOOOOOOOO
Determine whether the block
shown is in equilibrium and find the magnitude and direction of the
friction force when θ = 35° and P = 186 N. Given: μs = 0.20 and μk
= 0.15.
Determine whether the block shown is in equilibrium and find the magnitude and direction of the friction force when θ= 35° and P 186 N. Given: H5-0.20 and μ,-0.15. 800 N 25° The block is not in equilibrium. (Click to The magnitude and direction of...
Write a MATLAB Script
that can be used to determine the magnitude and direction of the
resultant of n coplanar forces applied at a point A.
The solution should
work for any F, Fi, Fn, theta, thetai and thetan combination.
Fig. P2.C1
6. Determine the magnitude F1 and the direction of force F1 so that the resultant of the force system is zero (i.e., FR = 0). F2 = 300 lb F = 260 lb
6. Determine the magnitude Fi and the direction of force Fi so that the resultant of the force system is zero (i.e., FR = 0) F Retrieved from Hbbeler RC (2009) Engineering Mechanics Statics