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Instructional Objectives 
After reading this chapter the student will be able to 
1. Extend moment-distribution method for frames undergoing sidesway. 
2. Draw free-body diagrams of plane frame. 
3. Analyse plane frames undergoing sidesway by the moment-distribution 
method. 
4. Draw shear force and bending moment diagrams. 
5. Sketch deflected shape of the plane frame not restrained against sidesway. 
 
 
21.1 Introduction 
In the previous lesson, rigid frames restrained against sidesway are analyzed 
using moment-distribution method. It has been pointed in lesson 17, that frames 
which are unsymmetrical or frames which are loaded unsymmetrically usually get 
displaced either to the right or to the left. In other words, in such frames apart 
from evaluating joint rotations, one also needs to evaluate joint translations 
(sidesway). For example in frame shown in Fig 21.1, the loading is symmetrical 
but the geometry of frame is unsymmetrical and hence sidesway needs to be 
considered in the analysis. The number of unknowns is this case are: joint 
rotations 
B
? and 
C
? and member rotation ? . Joint B and C get translated by the 
same amount as axial deformations are not considered and hence only one 
independent member rotation need to be considered. The procedure to analyze 
rigid frames undergoing lateral displacement using moment-distribution method 
is explained in section 21.2 using an example. 
 
 
 
Page 2


Instructional Objectives 
After reading this chapter the student will be able to 
1. Extend moment-distribution method for frames undergoing sidesway. 
2. Draw free-body diagrams of plane frame. 
3. Analyse plane frames undergoing sidesway by the moment-distribution 
method. 
4. Draw shear force and bending moment diagrams. 
5. Sketch deflected shape of the plane frame not restrained against sidesway. 
 
 
21.1 Introduction 
In the previous lesson, rigid frames restrained against sidesway are analyzed 
using moment-distribution method. It has been pointed in lesson 17, that frames 
which are unsymmetrical or frames which are loaded unsymmetrically usually get 
displaced either to the right or to the left. In other words, in such frames apart 
from evaluating joint rotations, one also needs to evaluate joint translations 
(sidesway). For example in frame shown in Fig 21.1, the loading is symmetrical 
but the geometry of frame is unsymmetrical and hence sidesway needs to be 
considered in the analysis. The number of unknowns is this case are: joint 
rotations 
B
? and 
C
? and member rotation ? . Joint B and C get translated by the 
same amount as axial deformations are not considered and hence only one 
independent member rotation need to be considered. The procedure to analyze 
rigid frames undergoing lateral displacement using moment-distribution method 
is explained in section 21.2 using an example. 
 
 
 
21.2 Procedure 
 A special procedure is required to analyze frames with sidesway using moment-
distribution method. In the first step, identify the number of independent rotations 
( ?) in the structure. The procedure to calculate independent rotations is 
explained in lesson 22. For analyzing frames with sidesway, the method of 
superposition is used. The structure shown in Fig. 21.2a is expressed as the 
sum of two systems: Fig. 21.2b and Fig. 21.2c. The systems shown in figures  
21.2b and 21.2c are analyzed separately and superposed to obtain the final 
answer. In system 21.2b, sidesway is prevented by artificial support atC . Apply 
all the external loads on frame shown in Fig. 21.2b. Since for the frame, 
sidesway is prevented, moment-distribution method as discussed in the previous 
lesson is applied and beam end moments are calculated. 
Let and  be the balanced moments obtained by 
distributing fixed end moments due to applied loads while allowing only joint 
rotations  (
' ' ' ' '
, , , ,
CD CB BC BA AB
M M M M M
'
DC
M
B
? and 
C
? ) and preventing sidesway. 
Now, calculate reactions  and (ref. Fig 21.3a).they are , 
1 A
H
1 D
H
 
 
 
 
Page 3


Instructional Objectives 
After reading this chapter the student will be able to 
1. Extend moment-distribution method for frames undergoing sidesway. 
2. Draw free-body diagrams of plane frame. 
3. Analyse plane frames undergoing sidesway by the moment-distribution 
method. 
4. Draw shear force and bending moment diagrams. 
5. Sketch deflected shape of the plane frame not restrained against sidesway. 
 
 
21.1 Introduction 
In the previous lesson, rigid frames restrained against sidesway are analyzed 
using moment-distribution method. It has been pointed in lesson 17, that frames 
which are unsymmetrical or frames which are loaded unsymmetrically usually get 
displaced either to the right or to the left. In other words, in such frames apart 
from evaluating joint rotations, one also needs to evaluate joint translations 
(sidesway). For example in frame shown in Fig 21.1, the loading is symmetrical 
but the geometry of frame is unsymmetrical and hence sidesway needs to be 
considered in the analysis. The number of unknowns is this case are: joint 
rotations 
B
? and 
C
? and member rotation ? . Joint B and C get translated by the 
same amount as axial deformations are not considered and hence only one 
independent member rotation need to be considered. The procedure to analyze 
rigid frames undergoing lateral displacement using moment-distribution method 
is explained in section 21.2 using an example. 
 
 
 
21.2 Procedure 
 A special procedure is required to analyze frames with sidesway using moment-
distribution method. In the first step, identify the number of independent rotations 
( ?) in the structure. The procedure to calculate independent rotations is 
explained in lesson 22. For analyzing frames with sidesway, the method of 
superposition is used. The structure shown in Fig. 21.2a is expressed as the 
sum of two systems: Fig. 21.2b and Fig. 21.2c. The systems shown in figures  
21.2b and 21.2c are analyzed separately and superposed to obtain the final 
answer. In system 21.2b, sidesway is prevented by artificial support atC . Apply 
all the external loads on frame shown in Fig. 21.2b. Since for the frame, 
sidesway is prevented, moment-distribution method as discussed in the previous 
lesson is applied and beam end moments are calculated. 
Let and  be the balanced moments obtained by 
distributing fixed end moments due to applied loads while allowing only joint 
rotations  (
' ' ' ' '
, , , ,
CD CB BC BA AB
M M M M M
'
DC
M
B
? and 
C
? ) and preventing sidesway. 
Now, calculate reactions  and (ref. Fig 21.3a).they are , 
1 A
H
1 D
H
 
 
 
 
 
 
 
2 2
' '
1
h
Pa
h
M M
H
BA AB
A
+
+
= 
 
1
' '
1
h
M M
H
DC CD
D
+
=       (21.1)  
 
again,            (21.2) ) (
1 1 D A
H H P R + - =
 
 
Page 4


Instructional Objectives 
After reading this chapter the student will be able to 
1. Extend moment-distribution method for frames undergoing sidesway. 
2. Draw free-body diagrams of plane frame. 
3. Analyse plane frames undergoing sidesway by the moment-distribution 
method. 
4. Draw shear force and bending moment diagrams. 
5. Sketch deflected shape of the plane frame not restrained against sidesway. 
 
 
21.1 Introduction 
In the previous lesson, rigid frames restrained against sidesway are analyzed 
using moment-distribution method. It has been pointed in lesson 17, that frames 
which are unsymmetrical or frames which are loaded unsymmetrically usually get 
displaced either to the right or to the left. In other words, in such frames apart 
from evaluating joint rotations, one also needs to evaluate joint translations 
(sidesway). For example in frame shown in Fig 21.1, the loading is symmetrical 
but the geometry of frame is unsymmetrical and hence sidesway needs to be 
considered in the analysis. The number of unknowns is this case are: joint 
rotations 
B
? and 
C
? and member rotation ? . Joint B and C get translated by the 
same amount as axial deformations are not considered and hence only one 
independent member rotation need to be considered. The procedure to analyze 
rigid frames undergoing lateral displacement using moment-distribution method 
is explained in section 21.2 using an example. 
 
 
 
21.2 Procedure 
 A special procedure is required to analyze frames with sidesway using moment-
distribution method. In the first step, identify the number of independent rotations 
( ?) in the structure. The procedure to calculate independent rotations is 
explained in lesson 22. For analyzing frames with sidesway, the method of 
superposition is used. The structure shown in Fig. 21.2a is expressed as the 
sum of two systems: Fig. 21.2b and Fig. 21.2c. The systems shown in figures  
21.2b and 21.2c are analyzed separately and superposed to obtain the final 
answer. In system 21.2b, sidesway is prevented by artificial support atC . Apply 
all the external loads on frame shown in Fig. 21.2b. Since for the frame, 
sidesway is prevented, moment-distribution method as discussed in the previous 
lesson is applied and beam end moments are calculated. 
Let and  be the balanced moments obtained by 
distributing fixed end moments due to applied loads while allowing only joint 
rotations  (
' ' ' ' '
, , , ,
CD CB BC BA AB
M M M M M
'
DC
M
B
? and 
C
? ) and preventing sidesway. 
Now, calculate reactions  and (ref. Fig 21.3a).they are , 
1 A
H
1 D
H
 
 
 
 
 
 
 
2 2
' '
1
h
Pa
h
M M
H
BA AB
A
+
+
= 
 
1
' '
1
h
M M
H
DC CD
D
+
=       (21.1)  
 
again,            (21.2) ) (
1 1 D A
H H P R + - =
 
 
 
 
In Fig 21.2c apply a horizontal force  in the opposite direction of F R. Now 
, then the superposition of beam end moments of system (b) and times 
(c) gives the results for the original structure. However, there is no way one could 
analyze the frame for horizontal force , by moment-distribution method as sway 
comes in to picture. Instead of applying , apply arbitrary known displacement / 
sidesway ' as shown in the figure. Calculate the fixed end beam moments in 
the column 
R F k = k
F
F
?
AB and CD for the imposed horizontal displacement. Since joint 
displacement is known beforehand, one could use moment-distribution method to 
analyse this frame. In this case, member rotations  ? are related to joint 
translation which is known. Let  and are the 
balanced moment obtained by distributing the fixed end moments due to 
assumed sidesway  at joints 
' ' ' ' ' ' ' ' ' '
, , , ,
CD CB BC BA AB
M M M M M
' '
DC
M
' ? B and . Now, from statics calculate horizontal 
force due to arbitrary sidesway
C
F ' ? . 
 
 
 
 
Page 5


Instructional Objectives 
After reading this chapter the student will be able to 
1. Extend moment-distribution method for frames undergoing sidesway. 
2. Draw free-body diagrams of plane frame. 
3. Analyse plane frames undergoing sidesway by the moment-distribution 
method. 
4. Draw shear force and bending moment diagrams. 
5. Sketch deflected shape of the plane frame not restrained against sidesway. 
 
 
21.1 Introduction 
In the previous lesson, rigid frames restrained against sidesway are analyzed 
using moment-distribution method. It has been pointed in lesson 17, that frames 
which are unsymmetrical or frames which are loaded unsymmetrically usually get 
displaced either to the right or to the left. In other words, in such frames apart 
from evaluating joint rotations, one also needs to evaluate joint translations 
(sidesway). For example in frame shown in Fig 21.1, the loading is symmetrical 
but the geometry of frame is unsymmetrical and hence sidesway needs to be 
considered in the analysis. The number of unknowns is this case are: joint 
rotations 
B
? and 
C
? and member rotation ? . Joint B and C get translated by the 
same amount as axial deformations are not considered and hence only one 
independent member rotation need to be considered. The procedure to analyze 
rigid frames undergoing lateral displacement using moment-distribution method 
is explained in section 21.2 using an example. 
 
 
 
21.2 Procedure 
 A special procedure is required to analyze frames with sidesway using moment-
distribution method. In the first step, identify the number of independent rotations 
( ?) in the structure. The procedure to calculate independent rotations is 
explained in lesson 22. For analyzing frames with sidesway, the method of 
superposition is used. The structure shown in Fig. 21.2a is expressed as the 
sum of two systems: Fig. 21.2b and Fig. 21.2c. The systems shown in figures  
21.2b and 21.2c are analyzed separately and superposed to obtain the final 
answer. In system 21.2b, sidesway is prevented by artificial support atC . Apply 
all the external loads on frame shown in Fig. 21.2b. Since for the frame, 
sidesway is prevented, moment-distribution method as discussed in the previous 
lesson is applied and beam end moments are calculated. 
Let and  be the balanced moments obtained by 
distributing fixed end moments due to applied loads while allowing only joint 
rotations  (
' ' ' ' '
, , , ,
CD CB BC BA AB
M M M M M
'
DC
M
B
? and 
C
? ) and preventing sidesway. 
Now, calculate reactions  and (ref. Fig 21.3a).they are , 
1 A
H
1 D
H
 
 
 
 
 
 
 
2 2
' '
1
h
Pa
h
M M
H
BA AB
A
+
+
= 
 
1
' '
1
h
M M
H
DC CD
D
+
=       (21.1)  
 
again,            (21.2) ) (
1 1 D A
H H P R + - =
 
 
 
 
In Fig 21.2c apply a horizontal force  in the opposite direction of F R. Now 
, then the superposition of beam end moments of system (b) and times 
(c) gives the results for the original structure. However, there is no way one could 
analyze the frame for horizontal force , by moment-distribution method as sway 
comes in to picture. Instead of applying , apply arbitrary known displacement / 
sidesway ' as shown in the figure. Calculate the fixed end beam moments in 
the column 
R F k = k
F
F
?
AB and CD for the imposed horizontal displacement. Since joint 
displacement is known beforehand, one could use moment-distribution method to 
analyse this frame. In this case, member rotations  ? are related to joint 
translation which is known. Let  and are the 
balanced moment obtained by distributing the fixed end moments due to 
assumed sidesway  at joints 
' ' ' ' ' ' ' ' ' '
, , , ,
CD CB BC BA AB
M M M M M
' '
DC
M
' ? B and . Now, from statics calculate horizontal 
force due to arbitrary sidesway
C
F ' ? . 
 
 
 
 
2
' ' ' '
2
h
M M
H
BA AB
A
+
= 
 
1
' ' ' '
2
h
M M
H
DC CD
D
+
=      (21.3) 
 
) (
2 2 D A
H H F + =         (21.4) 
 
 
 
In Fig 21.2, by method of superposition 
 
R kF =  or  F R k / =
 
Substituting the values of R and from equations (21.2) and (21.4), F
 
) (
) (
2 2
1 1
D A
D A
H H
H H P
k
+
+ -
=           (21.5)  
 
Now substituting the values of , ,  and  in 21.5, 
1 A
H
2 A
H
1 D
H
2 D
H
 
?
?
?
?
?
?
?
? +
+
+
+
?
?
?
?
?
?
?
?
+
+
-
=
+
1 2
1 2 2
' ' ' '
' ' ' '
' '
' '
h
M M
h
M M
h
M M
h
Pa
h
M M
P
k
DC CD
BA AB
DC CD
BA AB
    (21.6) 
 
Hence, beam end moment in the original structure is obtained as, 
 
) ( ) ( c system b system original
kM M M + = 
 
If there is more than one independent member rotation, then the above 
procedure needs to be modified and is discussed in the next lesson. 
 
 
 
 
 
 
 
 
 
 
 
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FAQs on The Moment Distribution Method: Frames with Sidesway - 1 - Structural Analysis - Civil Engineering (CE)

1. What is the moment distribution method?
Ans. The moment distribution method is a structural analysis technique used in civil engineering to analyze and design frames with sidesway. It allows for the calculation of member moments and joint rotations by distributing the applied loads and moments throughout the structure.
2. How does the moment distribution method handle frames with sidesway?
Ans. The moment distribution method handles frames with sidesway by considering the structural behavior and the effects of sidesway on member moments and joint rotations. It takes into account the stiffness of the structure, the distribution of applied loads and moments, and the rotational stiffness at each joint to determine the final moments and rotations.
3. What are the advantages of using the moment distribution method for frames with sidesway?
Ans. The moment distribution method offers several advantages for analyzing frames with sidesway. It provides a simplified and iterative approach to calculate member moments and joint rotations, allowing for efficient and accurate analysis. It also takes into account the effects of sidesway, which is crucial for designing structures that can resist lateral loads and deformations.
4. What are the limitations of the moment distribution method for frames with sidesway?
Ans. While the moment distribution method is a widely used technique, it does have some limitations. It assumes that the structure is symmetrical and that the joints are rigid, which may not always be the case in real-world scenarios. Additionally, the method may not be suitable for structures with significant torsional effects or complex load distributions.
5. Are there any alternative methods to analyze frames with sidesway?
Ans. Yes, there are alternative methods to analyze frames with sidesway. Some commonly used techniques include the stiffness matrix method, the finite element method, and computer-aided structural analysis software. These methods offer more advanced and accurate analyses but may require more computational resources and expertise to perform.
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