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Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE) PDF Download

Resultant

Resultant is a single force that will replace a system of forces and produces the same effect on the rigid body as that of the system of forces.

A. Resultant of Two Concurrent Forces - Parallelogram Law of Forces

Sign Conventions 

The following sign conventions shall be used throughout the book

1. Upward forces are considered as positive, whereas the downwards as negative.

2. Forces acting towards right are considered as positive, whereas those towards left as negative.

Problems

Q1. Find the magnitude of the two forces, such that if they act at right angles, their resultant is √10 N. But if they Act at 60°, their resultant is √13 N.

Q2. The greatest and least resultants of two forces F1 and F2 are 17 N and 3 N respectively. Determine the angles between them when their resultant is √149 N

Q3. A screw eye is subjected to two forces F1 and F2 as shown in figure. Determine the magnitude and direction of the resultant force by parallelogram method

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

Q4. The two structural members, one of which is in tension and the other in compression, exert the indicated forces on joint O. Determine the magnitude of the resultant R of the two forces and the angle which R makes with the positive x-axis.

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

Resolution Of Forces 

The replacement of a single force by a several components which will be equivalent in action to the given force is called resolution of a force.
Forces can be resolved in any 2 directions. However, it is convenient to resolve them into the two orthogonal components (mutually perpendicular directions)

Resolution of Coplanar Forces in Rectangular Coordinates

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

 

B. Resultant of Concurrent Coplanar Force Systems

Procedure

1. Resolve all the forces into x and y components

2. Add the components of forces along the x and y axes with proper sense of direction.

3. Find the resultant and inclination of the forces

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

 

Note : 1. If both FRx and FRy are positive, the resultant lies in the first quadrant

2. If both FRx and FRy are negative the resultant lies in the third quadrant

3. If FRx is positive and FRy is negative, the resultant lies in the fourth quadrant

4. If FRx is negative and FRy is positive, the resultant lies in the second quadrant

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

 

Problems for Practice

Q1. Four forces act on bolt A as shown. Determine the resultant of the force on the bolt.

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

Q2. If the magnitude of the resultant force is to be 9 kN directed along the positive x axis, determine the magnitude of force T acting on the eyebolt and its angle.

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

Q3. Determine the resultant of the 3 forces acting on the bracket and its direction.

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

Q4. The forces 20 N, 30 N, 40 N, 50 N and 60 N are acting at one of the angular points of a regular hexagon, towards the other five angular points, taken in order. Find the magnitude and direction of the resultant force.

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

Q5. If Φ = 30 and the resultant force acting on the gusset plate is directed along the positive x axis, determine the magnitudes of F2 and the resultant force.

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

 Q6Determine the resultant of the forces shown below

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

Q7. Determine the resultant of the forces acting on the ring shown in figure.

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

Q8. Find the resultant of the three concurrent forces as shown on figure.

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

Q9. Find the magnitude and direction of the resultant of the following forces.

i. 20 N inclined at 30° towards North of East.

ii. 25 N towards North.

iii. 30 N towards North West and

iv. 35 N inclined at 40° towards South of West.

 Moment 

The tendency of a force to rotate the body in the direction of its application a force about a point that is not on the line of action of the force is called Moment of force or simply moment.
Moment is also referred to as torque.

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

Scalar Formulation 

Moment is a vector quantity whose direction is perpendicular to the plane of the body. The right-hand rule is used to establish the sense of direction of moment. Throughout the text, clockwise moments are taken as positive while anti-clockwise as negative.

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

Varignon’s Theorem or Principle of Moments

The moment of a force about any point is equal to the sum of the moments of the components of the force about the same point.”

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

Couple 

The moment produced by two equal, opposite, and non-collinear forces is called a couple. The perpendicular distance between the lines of action of the two and opposite parallel forces is known as arm of the couple.

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

A couple can be represented by a vector with magnitude and direction equal to the moment of the couple.

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

Practical Examples : Force apllied to a handle of steering wheel

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

 

Differences between Moment and Couple

MomentCouple

1 Moment is the tendency of force to rotate a body with the given point or axis

2 It is produced by forces not passing through point of rotation axis

3 There is a resultant force acting on the body in the direction of force and rotate the body.

4 To balance the force causing moment, equal and opposite force is required.

5 For example, To tight the nut by spanner To open or close the door

1 Two equal and opposite forces whose lines of action are different form a couple

2 It is produced by the two equal and opposite parallel, non collinear forces.

3 Resultant force of couple is zero. Hence, body does not move, but rotate only.

4 Couple cannot be balanced by a single force, it can be balanced by a couple only.

5 For example, To rotate the key in lock To open or close the wheel valve of water line To rotate the steering wheel of car.


C. Resultant of Coplanar Non-concurrent Force Systems

A system of several forces and couple moments acting on a body can be reduced to equivalent single resultant force acting at a point O and a resultant couple moment.

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

 

X-Y Intercepts 

Intercepts are the points/coordinates where the line of action meets the corresponding axes.

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

 

D. Resolution of Force Into Force and Couple System

Suppose we have to sift he force from point A to B. The procedure to be followed

1. Apply 2 equal and opposite force at point A parallel to force B of the same magnitude

2. If the points are separated by a distance d, the opposite forces F and –F form a couple retaining force F at point B in the same direction as A

 

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)


Problems

Q1. Replace the force system acting on the beam by an equivalent force and couple at point B.

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

Q2. Reduce the following force system into
a) A single force
b) Resultant force and couple acting at point A.
c) Resultant force and couple acting at point B.
d) Resultant force and couple acting at point C.

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

Q3. Replace the force system by a resultant force and couple moment at point O.

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

Q4. Two coplanar forces P and Q are shown in figure. Assume all squares of the same size.
i) If P = 4 kN, find the magnitude and direction of Q if their resultant passes through E
ii) If Q = 110 kN, find the magnitude and direction of P if their resultant passes through F

 

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

Representation of Force 

There are two ways of representation of force. The method used depends on the type of problem being solved and the easiest approach to finding a solution.

  1. Scalar Notation
  2. Vector Notation

Vector Notation Of Forces 

1. Two Dimensional Force Systems (Coplanar Forces) It is also possible to represent the x and y components of a force in terms of Cartesian unit vectors i and j.

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)  Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

where the scalars Fx and Fy are the x and y scalar components of the vector F.

2. Three Dimensional Force Systems(Non-Coplanar Forces)

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

Unit Vector 

Vectors having unit magnitude and represents only the direction of vectors is called a unit vector. It is usually denoted by n.

A vector V may be expressed mathematically by multiplying its magnitude V by a vector n whose magnitude is one and whose direction coincides with that of V.

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

The unit vectors along the Rectangular Coordinate axis x, y and z are

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

 

Problems

Q1. A force vector F = 700i + 1500j is applied to a bolt. Determine the magnitude of force and the angle it forms with the horizontal.

Q2. A force of 500 N forms angles 600, 450 and 1200 respectively with x, y and z axes. Write the vector form of force.

Position Vector 

A position vector r is defined as a fixed vector which locates a point in space relative to another point. a) Position Vector of P relative to origin

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE) Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

b) Position vector of B with respect to A

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)


A. Resultant of Non Coplanar Forces -by Vector Notation 

1. Resultant of Non Coplanar Concurrent Forces

In vector notation, the scalar components of the resultant vector can be obtained by adding algebraically the sum of the corresponding scalar components of the force vectors.

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

where

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

 

B. Moment and Couple – in Vector Notation 

Moment 

Moment is a vector quantity whose direction is perpendicular to the plane of the body. The right-hand rule is used to establish the sense of direction of moment.
Vector Formulation

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

Varignon’s Theorem

Vector Formulation Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

Couple 

Vector Formulation

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

Couple vectors are free vectors, i.e., the point of application is not significant.

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

 

Note : Cross Product of vectors

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

 

2. Resultant of Non Coplanar Non-Concurrent Forces

ProblemsQ

Q1. A table exerts the four forces shown on the floor surface. Reduce the force system to a force– couple system at point O. Determine the resultant of the following force and its location

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

Q2. Replace the two forces acting on the post by a resultant force and couple moment at point O.

Express the results in Cartesian vector form.

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

 

C. Equilibrium of Non Coplanar Forces – by Vector Notation

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

 

1. Equilibrium of Non-Coplanar Concurrent Forces 

In vector notation, the equation of equilibrium can be summarized as

Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE)

The document Summary: Resultant of Force System | Engineering Mechanics - Civil Engineering (CE) is a part of the Civil Engineering (CE) Course Engineering Mechanics.
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FAQs on Summary: Resultant of Force System - Engineering Mechanics - Civil Engineering (CE)

1. What is the resultant of a force system?
Ans. The resultant of a force system is the single force that has the same effect as all the individual forces acting on an object.
2. How can the resultant of a force system be calculated?
Ans. The resultant of a force system can be calculated by vector addition, where the individual forces are added together using the parallelogram law or the triangle rule.
3. Why is it important to determine the resultant of a force system?
Ans. Determining the resultant of a force system is important because it helps in analyzing the overall effect of all the forces acting on an object, which is crucial for predicting the object's motion or stability.
4. Can the resultant of a force system be zero?
Ans. Yes, the resultant of a force system can be zero if the individual forces are balanced in such a way that they cancel each other out.
5. What are some real-life applications of analyzing the resultant of a force system?
Ans. Some real-life applications include determining the stability of structures, analyzing the forces acting on vehicles or machinery, and predicting the motion of objects in various engineering and physics scenarios.
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