The effective height of free standing non-load bearing wall and column respectively will be

Design of Masonry Structures
The effective height of free standing non-load bearing wall and column respectively will be

2.0H and 1.5H

2.0H and 2.0H

1.0H and 1.0H

1.5H and 1.5H

2.0H and 1.5H

2.0H and 2.0H

1.0H and 1.0H

1.5H and 1.5H

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Design of Masonry Structures
If the ratio of center to center spacing of intersecting walls to actual thickness of intersecting wall is more than 20, then the stiffening coefficient for wall proper will be

Between 0 and 1

Greater than 1

1

Between 0 and 1

Greater than 1

1

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Design of Masonry Structures
If ‘H’ is the height of wall between centers of supports, then the effective height of wall where concrete floors have a bearing on wall irrespective of the direction of span will be

1.0 H

1.5 H

0.85 H

0.75 H

1.0 H

1.5 H

0.85 H

0.75 H

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Design of Masonry Structures
Consider the following statements regarding bands to be provided for strengthening masonry work in masonry buildings constructed in zone III, IV and V.
(i) Lintel band is provided at lintel level on partition walls,
(ii) Gable band is provided at top of gable masonry below the purlins,
(iii) The bands shall be to full width of the wall and not less than 7.5 cm in depth,
(iv) The bands shall be made of reinforced concrete only.
of these statements, the correct statements are

(i) and (ii)

(ii) and (iv)

(ii) and (iii)

(i) and (iii)

(i) and (ii)

(ii) and (iv)

(ii) and (iii)

(i) and (iii)

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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
The basic stress in masonry units having height to width ratio of 1.5 may be increased by a factor of

1.6

2

1.4

1.2

1.6

2

1.4

1.2

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Design of Masonry Structures

Design of Masonry Structures The effective height of free standing non-load bearing wall and column respectively will be

Design of Masonry Structures If the ratio of center to center spacing of intersecting walls to actual thickness of intersecting wall is more than 20, then the stiffening coefficient for wall proper will be

Design of Masonry Structures If ‘H’ is the height of wall between centers of supports, then the effective height of wall where concrete floors have a bearing on wall irrespective of the direction of span will be

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 The basic stress in masonry units having height to width ratio of 1.5 may be increased by a factor of

Design of Masonry Structures
The effective height of free standing non-load bearing wall and column respectively will be

Design of Masonry Structures
If the ratio of center to center spacing of intersecting walls to actual thickness of intersecting wall is more than 20, then the stiffening coefficient for wall proper will be

Design of Masonry Structures
If ‘H’ is the height of wall between centers of supports, then the effective height of wall where concrete floors have a bearing on wall irrespective of the direction of span will be

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
The basic stress in masonry units having height to width ratio of 1.5 may be increased by a factor of