IntroductionIn the first chapter we discussed about simple case of
concurrent forces, where only two non parallel forces were considered.
However, in many cases, the lines of action of three or more forces may intersect at a single point, and can form a system of concurrent forces.
In this chapter we are going to discuss these type of coplanar concurrent forces.
Resultant of Concurrent Force (Algebraically)Find ∑ Fx, ∑ Fy then determine the resultant force and the angle. (The sense
in which each force acts is considered)Ax = A cos α, Bx = B cos β, Cx = C cos γ
Ay = A sin α, By = B sin β, Cy = C sin γ
∑ Fx = A cos α - B cos β - C cos γ
∑ Fy = A sin α - B sin β - C sin γ
Resultant force, R = [(∑ Fx)2 + (∑ Fy)2]1/2
Direction or angle, tanθ′ = ∑ Fy / ∑ Fx
Equilibrium
A system of forces where the resultant is zero is said to be in Equilibrium. (Defined by Newton’s First Law)
Now If, R= 0 then,∑ Fx = 0
∑ Fy = 0
The above two equations can be used to find two unknowns.
Problem 57R is the resultant of F, T and Q, shown in Fig. 33. F = 150
lb., θ = 30º, R = 85 lb. Find Q and α.
Example 21- Do it yourself
Free BodyMost bodies in equilibrium are at rest.But a rigid body moving with constant speed in a straight path
is also in equilibrium.A rigid body may be any particular mass whose shape remains
unchanged while it is being analyzed for the effect of forces.Since no body is truly rigid, we mean by ‘rigid body’ is one
whose deformation under force is negligible for the purposes of the problem.
A free body is a representation of an object, usually a rigid body , which shows all the forces acting on it. (See page 22-23 of Analytic Mechanics by Virgil Moring Faires for details)
Problem 72A 5000 lb sphere rests on a smooth plane inclined at an
angle θ = 45 º with the horizontal and against a smooth vertical wall. What are reactions at the contact surface A and B, Fig. 39?
Again from the equation of equilibrium,∑Fx = F2 cos45º - F1 cos60º = 0
∑Fy = F2 sin45º + F1 sin60º = 0
Equilibrium of Three Forces & Force Polygon
Problem: 91Two weights are suspended from a flexible cable as
shown in Fig. 46. For θ = 120º, determine the internal forces in various parts of the cable and weight W.
Trusses: Joint to joint methodA determinate structure is one wherein the internal forces in the various
members of the structure may be obtained by the conditions of equilibrium.
Although truss is subjected to all manner of loading, for simplicity it is assumed that, the loads on truss are applied at pin joints
So, with a truss loaded in this manner, all the various members are two force members and the free body of each pin is a system of concurrent forces.
If all the external forces including the reactions at the supports are known, then the above principles can be used to determine the internal forces in each member.
To determine the member forces, it is assumed that the unknown forces are acting away from the pin, which means that the members are in tension.
Solve for each of the unknowns by using the conditions of equilibrium, i.e., ∑ Fx = 0, ∑ Fy = 0.
Example 22A roof truss is constructed and loaded as shown in Fig. 27. At
the pin N, the following internal forces have been found: NF = 16900 lb (tension), DN = 7000 lb (compression) and NH = 12565 lb (tension). For an external load at the pin of 6000, find the forces in the members NC and NB.
Assignments From Book (Analytic Mechanics by Virgil Moring Faires):Problem: 77Problem: 79Problem: 114Problem: 137 Problem: 138