Rich cement mortars are more liable to cracking as compared to lean mortars because rich mortars have

Design of Masonry Structures
Rich cement mortars are more liable to cracking as compared to lean mortars because rich mortars have

High shrinkage

None of above

Less strength

Both (A) and (B)

High shrinkage

None of above

Less strength

Both (A) and (B)

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Design of Masonry Structures
Consider the following statements:A high lime content in a composite cement-lime mortar results in1. Slow hardening.2. Quick setting.3. Weaker mortar.

1 and 2 are correct

1 and 3 are correct

1, 2 and 3 are correct

2 and 3 are correct

1 and 2 are correct

1 and 3 are correct

1, 2 and 3 are correct

2 and 3 are correct

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Design of Masonry Structures
Assertion A : For eccentricity ratio exceeding 1/6, effective thickness of masonry will get reduced.
Reason R : For eccentricity ratio exceeding 1/6, there will be tension on one side of the member.
Select your answer according to the codes give below:

A is true but R is false

Both A and R is true and R is not the correct explanation of A

A is false but R is true

Both A and R is true and R is the correct explanation of A

A is true but R is false

Both A and R is true and R is not the correct explanation of A

A is false but R is true

Both A and R is true and R is the correct explanation of A

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Design of Masonry Structures
Minimum compressive strength in N/mm² for H1 type mortar used for masonry is

10

7.5

5

3

10

7.5

5

3

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Design of Masonry Structures
If the eccentricity ratio is more than 1/24, then increase in the permissible stress in the design of wall subjected to eccentric loading as per code is

25 %

10 %

50 %

33? %

25 %

10 %

50 %

33? %

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Design of Masonry Structures
In a cavity wall, both leaves of which are load bearing, the effective thickness is taken as

Sum of thickness of both leaves

Larger of (B) and (C)

Actual thickness of the stronger leaf

Two-third of the sum of thickness of both the leaves

Sum of thickness of both leaves

Larger of (B) and (C)

Actual thickness of the stronger leaf

Two-third of the sum of thickness of both the leaves

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Design of Masonry Structures

Design of Masonry Structures Rich cement mortars are more liable to cracking as compared to lean mortars because rich mortars have

Design of Masonry Structures Consider the following statements:A high lime content in a composite cement-lime mortar results in1. Slow hardening.2. Quick setting.3. Weaker mortar.

Design of Masonry Structures Assertion A : For eccentricity ratio exceeding 1/6, effective thickness of masonry will get reduced.Reason R : For eccentricity ratio exceeding 1/6, there will be tension on one side of the member.Select your answer according to the codes give below:

Design of Masonry Structures Minimum compressive strength in N/mm² for H1 type mortar used for masonry is

Design of Masonry Structures If the eccentricity ratio is more than 1/24, then increase in the permissible stress in the design of wall subjected to eccentric loading as per code is

Design of Masonry Structures In a cavity wall, both leaves of which are load bearing, the effective thickness is taken as

Design of Masonry Structures
Rich cement mortars are more liable to cracking as compared to lean mortars because rich mortars have

Design of Masonry Structures
Consider the following statements:A high lime content in a composite cement-lime mortar results in1. Slow hardening.2. Quick setting.3. Weaker mortar.

Design of Masonry Structures
Assertion A : For eccentricity ratio exceeding 1/6, effective thickness of masonry will get reduced.
Reason R : For eccentricity ratio exceeding 1/6, there will be tension on one side of the member.
Select your answer according to the codes give below:

Design of Masonry Structures
Minimum compressive strength in N/mm² for H1 type mortar used for masonry is

Design of Masonry Structures
If the eccentricity ratio is more than 1/24, then increase in the permissible stress in the design of wall subjected to eccentric loading as per code is

Design of Masonry Structures
In a cavity wall, both leaves of which are load bearing, the effective thickness is taken as