The prestressed member undergoes deformation due to the action of ______________

Prestressing force and tangential loads

Prestressing force and flexural loads

Prestressing force and combined loads

Prestressing force and transverse loads

Prestressing force and tangential loads

The rotation equation obtained by applying Mohr‚Äö√Ñ√∂‚àö√ë‚àö¬•s theorem considering a concrete beam of span l, force p, eccentricity e is:$

‚âà√≠‚Äö√†√®p = PeL/4EI

‚âà√≠‚Äö√†√®p = PeL/2EI

‚âà√≠‚Äö√†√®p = PeL/4EI

‚âà√≠‚Äö√†√®p = PeL/16EI

‚âà√≠‚Äö√†√®p = PeL/20EI

The prestressed member undergoes deformation due to the action of:

Prestressing force and tangential loads

Prestressing force and flexural loads

Prestressing force and combined loads

Prestressing force and transverse loads

Prestressing force and tangential loads

20 + Mcqs in Stresses Tendons in Prestressed Concrete Structures Page 1 McqOptions

1.	Which beams are preferred mostly due to their higher flexural strength?
A.	Bonded beams
B.	Un bonded beams
C.	Exhaustive beams
D.	Extended beams
Answer» B. Un bonded beams

Discussion

2.	The development of crack widths is comparatively larger in ____________
A.	Bonded beams
B.	Un bonded beams
C.	Localized beams
D.	Strengthened beams
Answer» B. Un bonded beams

Discussion

3.	The rate of increase of stress is larger in case of ____________
A.	Bonded beams
B.	Un bonded beams
C.	Tensioned beams
D.	Anchorage beams
Answer» B. Un bonded beams

Discussion

4.	The stress in tendons of bonded beams is ____________
A.	αe (My/I)
B.	αe (My/R)
C.	αe (My/L)
D.	αe (My/20)
Answer» B. αe (My/R)

Discussion

5.	A prestressed concrete beam used over a span of 6m is 100mm wide and 300mm deep, live load of 4kn/m, density of concrete is 24kn/m3, modulus of elasticity of concrete is 36 and steel is 210kn/mm2. Find rotation due to loads(sagging moment)?
A.	0.005
B.	0.00525
C.	0.0024
D.	0.0045
Answer» E.

Discussion

6.	The rate of increase in stress in the tendons of a prestress concrete member depends upon ____________
A.	Bond and breakage
B.	Bond and surrounding concrete
C.	Bond and elasticity
D.	Bond and anchorage
Answer» C. Bond and elasticity

Discussion

7.	In the elastic range, any increase in prestressed member does not show any effect on ____________
A.	Steel stress
B.	Compressive stress
C.	Bending stress
D.	Flexural stress
Answer» B. Compressive stress

Discussion

8.	The cross section of a prestressed concrete beam is 100mm wide and 300mm deep and the initial stress in tendons are located at a eccentricity of 50mm is 1000n/mm2, the sectional area is 100mm2. Find rotation due to prestress (hogging moment)?
A.	0.00155
B.	0.00165
C.	0.00175
D.	0.00185
Answer» E.

Discussion

9.	The rotation equation obtained by applying Mohr’s theorem considering a concrete beam of span l, force p, eccentricity e is?
A.	θp = PeL/2EI
B.	θp = PeL/4EI
C.	θp = PeL/16EI
D.	θp = PeL/20EI
Answer» B. θp = PeL/4EI

Discussion

10.	The prestressed member undergoes deformation due to the action of ______________
A.	Prestressing force and flexural loads
B.	Prestressing force and combined loads
C.	Prestressing force and transverse loads
D.	Prestressing force and tangential loads
Answer» D. Prestressing force and tangential loads

Discussion

11.	THE_DEVELOPMENT_OF_CRACK_WIDTHS_IS_COMPARATIVELY_LARGER_IN:?$
A.	Bonded beams
B.	Un bonded beams
C.	Localized beams
D.	Strengthened beams
Answer» B. Un bonded beams

Discussion

12.	Which_beams_are_preferred_mostly_due_to_their_higher_flexural_strength?$
A.	Bonded beams
B.	Un bonded beams
C.	Exhaustive beams
D.	Extended beams
Answer» B. Un bonded beams

Discussion

13.	The rate of increase of stress is larger in case of?
A.	Bonded beams
B.	Un bonded beams
C.	Tensioned beams
D.	Anchorage beams
Answer» B. Un bonded beams

Discussion

14.	The stress in tendons of bonded beams is:
A.	‚âà√≠¬¨¬±<sub>e</sub> (My/I)
B.	‚âà√≠¬¨¬±<sub>e</sub> (My/R)
C.	‚âà√≠¬¨¬±<sub>e</sub> (My/L)
D.	‚âà√≠¬¨¬±<sub>e</sub> (My/20)
Answer» B. ‚âà√≠¬¨¬±<sub>e</sub> (My/R)

Discussion

15.	A prestressed concrete beam used over a span of 6m is 100mm wide and 300mm deep, live load of 4kn/m, density of concrete is 24kn/m³, modulus of elasticity of concrete is 36 and steel is 210kn/mm². Find rotation due to loads(sagging moment)?
A.	0.005
B.	0.00525
C.	0.0024
D.	0.0045
Answer» E.

Discussion

16.	The rate of increase in stress in the tendons of a prestress concrete member depends upon:
A.	Bond and breakage
B.	Bond and surrounding concrete
C.	Bond and elasticity
D.	Bond and anchorage
Answer» C. Bond and elasticity

Discussion

17.	In the elastic range, any increase in prestressed member does not show any effect on:
A.	Steel stress
B.	Compressive stress
C.	Bending stress
D.	Flexural stress
Answer» B. Compressive stress

Discussion

18.	The cross section of a prestressed concrete beam is 100mm wide and 300mm deep and the initial stress in tendons are located at a eccentricity of 50mm is 1000n/mm², the sectional area is 100mm². Find rotation due to prestress (hogging moment)?
A.	0.00155
B.	0.00165
C.	0.00175
D.	0.00185
Answer» E.

Discussion

19.	The rotation equation obtained by applying Mohr‚Äö√Ñ√∂‚àö√ë‚àö¬•s theorem considering a concrete beam of span l, force p, eccentricity e is:$
A.	‚âà√≠‚Äö√†√®<sub>p</sub> = PeL/2EI
B.	‚âà√≠‚Äö√†√®<sub>p</sub> = PeL/4EI
C.	‚âà√≠‚Äö√†√®<sub>p</sub> = PeL/16EI
D.	‚âà√≠‚Äö√†√®<sub>p</sub> = PeL/20EI
Answer» B. ‚âà√≠‚Äö√†√®<sub>p</sub> = PeL/4EI

Discussion

20.	The prestressed member undergoes deformation due to the action of:
A.	Prestressing force and flexural loads
B.	Prestressing force and combined loads
C.	Prestressing force and transverse loads
D.	Prestressing force and tangential loads
Answer» D. Prestressing force and tangential loads

Discussion

Explore topic-wise MCQs in Prestressed Concrete Structures.

Which beams are preferred mostly due to their higher flexural strength?

The development of crack widths is comparatively larger in ____________

The rate of increase of stress is larger in case of ____________

The stress in tendons of bonded beams is ____________

A prestressed concrete beam used over a span of 6m is 100mm wide and 300mm deep, live load of 4kn/m, density of concrete is 24kn/m3, modulus of elasticity of concrete is 36 and steel is 210kn/mm2. Find rotation due to loads(sagging moment)?

The rate of increase in stress in the tendons of a prestress concrete member depends upon ____________

In the elastic range, any increase in prestressed member does not show any effect on ____________

The cross section of a prestressed concrete beam is 100mm wide and 300mm deep and the initial stress in tendons are located at a eccentricity of 50mm is 1000n/mm2, the sectional area is 100mm2. Find rotation due to prestress (hogging moment)?

The rotation equation obtained by applying Mohr’s theorem considering a concrete beam of span l, force p, eccentricity e is?

The prestressed member undergoes deformation due to the action of ______________

THE_DEVELOPMENT_OF_CRACK_WIDTHS_IS_COMPARATIVELY_LARGER_IN:?$

Which_beams_are_preferred_mostly_due_to_their_higher_flexural_strength?$

The rate of increase of stress is larger in case of?

The stress in tendons of bonded beams is:

A prestressed concrete beam used over a span of 6m is 100mm wide and 300mm deep, live load of 4kn/m, density of concrete is 24kn/m3, modulus of elasticity of concrete is 36 and steel is 210kn/mm2. Find rotation due to loads(sagging moment)?

The rate of increase in stress in the tendons of a prestress concrete member depends upon:

In the elastic range, any increase in prestressed member does not show any effect on:

The cross section of a prestressed concrete beam is 100mm wide and 300mm deep and the initial stress in tendons are located at a eccentricity of 50mm is 1000n/mm2, the sectional area is 100mm2. Find rotation due to prestress (hogging moment)?

The rotation equation obtained by applying Mohr‚Äö√Ñ√∂‚àö√ë‚àö¬•s theorem considering a concrete beam of span l, force p, eccentricity e is:$

The prestressed member undergoes deformation due to the action of:

A prestressed concrete beam used over a span of 6m is 100mm wide and 300mm deep, live load of 4kn/m, density of concrete is 24kn/m³, modulus of elasticity of concrete is 36 and steel is 210kn/mm². Find rotation due to loads(sagging moment)?

The cross section of a prestressed concrete beam is 100mm wide and 300mm deep and the initial stress in tendons are located at a eccentricity of 50mm is 1000n/mm², the sectional area is 100mm². Find rotation due to prestress (hogging moment)?