The magnitudes of the given forces are those on the attached sheet. The angles are as given. (b) For system of forces in part (a) above, confirm your answer by calculating the resultant force? A B 105 60 30 F 90 45 30
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Magnitude of given forces
A(KN)-9.0
B(KN)-9.0
C(KN)-17.5
D(KN)-26.9
E(KN)-44.8
F(KN)-10.0
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- Consider a pair of forces, one having a magnitude of 20 N and the other a magnitude of 12 N. What maximum net force is possible for these two forces? What is the minimum net force possible?Consider a pair of forces, one having a magnitude of 20N and the other magnitude of 12N .What maximum net force is possible for these two forces? What is the minimum net force possible?Using the same force table that you used, a student was given two forces and asked to find a single force that would produce equilibrium with the two forces. The two forces were given by providing one of the components and the angle the force made with the positive x- axis. The two forces were as follows: Force 1: Fx = −2.70 N; Theta = 220.0 degreees Force 2: Fy = 3.20 N; Theta = 60.0 degrees (a) For each force, calculate the magnitude of the force and the mass required to produce it. (b) Calculate the mass and its angle of application to produce equilibrium with these two forces. Please specify your angle as counterclockwise positive with respect to the positive x-axis.
- Combine the two forces P and T, which act on the fixed structure at B, into a single equivalent force R.If the maximum net force between two forces is 45 N and the minimum resultant is 5 N, what are the magnitudes of the 2 individual forces?Two forces act perpendicular to each other with 100 N in the +x and 150 N in the +y. Which of the following is the magnitude direction of the resultant force?
- Determine the magnitude F and the angle theta, if the resultant of the two forces acting on the block is to be a horizontal 80-N force directed to the right.There are two forces on the 1.19 kg box in the overhead view of the figure but only one is shown. For F1 = 15.7 N, a = 14.7 m/s2, and θ = 34.1°, find the second force (a) in unit-vector notation and as (b) a magnitude and (c) a direction. (State the direction as a negative angle measured from the +x direction.)The two tugboats apply the forces P and Q to the barge, where P=76 kN and Q=52 kN. Determine the resultant of P and Q.
- Two forces, F1 and F2, act on an eye bolt. If the resultant force (FR) has a magnitude of 150 [lb] and the coordinate direction angles shown in the figure, determine the coordinate direction angles.Using the same force table that you used, a student was given two forces and asked to find a single force that would produce equilibrium with the two forces. The two forces were given by providing one of the components and the angle the force made with the positive x- axis. The two forces were as follows: Force 1: ?? = −2.70 ?; ? = 220.0 degreees Force 2: ?? = 3.20 ?; ? = 60.0 degrees (a) For each force, calculate the magnitude of the force and the mass required to produce it. (b) Calculate the mass and its angle of application to produce equilibrium with these two forces. Please specify your angle as counterclockwise positive with respect to the positive x-axis.Two masses mA =9.3kg and mB=6.1kg are on inclines and are connected together by a string as shown in the figure. The angles theta subscript A=700 and theta subscript B = 360 . In the absence of the friction, the force F is required to pull the masses at a constant velocity up the fixed inclines. The force F is now removed. What is the magnitude of the acceleration of the two blocks? Take g =9.81 m/s2, and express your answer using two decimal places.