The major principal stresses produced on diagonal plane is expressed as __________

fx + fy/2 + 1/2 ((fx – fy)2 + 4τ v2)1/2

fx + fy/2 – 1/2 ((fx – fy)2 + 4τ v2)1/2

fx + fy/2 + 1/2 ((fx – fy)2 + 4τ v2)1/2

The shear stress is a function of __________

Principle stresses and elevation

The major principal stresses produced on diagonal plane is expressed as:

fx + fy/2 + 1/2 ((fx ‚Äö√Ñ√∂‚àö√ë‚àö¬® fy)2 +4‚âà√¨‚àö√´ v2 )1/2

fx + fy/2 ‚Äö√Ñ√∂‚àö√ë‚àö¬® 1/2 ((fx ‚Äö√Ñ√∂‚àö√ë‚àö¬® fy )2 +4‚âà√¨‚àö√´ v2 )1/2

fx + fy/2 + 1/2 ((fx ‚Äö√Ñ√∂‚àö√ë‚àö¬® fy)2 +4‚âà√¨‚àö√´ v2 )1/2

fx ‚Äö√Ñ√∂‚àö√ë‚àö¬® fy/2

The shear stress is a function of:

Principle stresses and elevation

18 + Mcqs in Shear Principal Stresses in Prestressed Concrete Structures Page 1 McqOptions

1.	Which type of tensioning is generally uneconomical for vertical prestressing?
A.	Post tensioning
B.	Pre tensioning
C.	Chemical tension
D.	Thermal tension
Answer» B. Pre tensioning

Discussion

2.	A prestressed concrete beam of span 10m of rectangular section, 120mm wide & 300mm deep a curved cable having an eccentricity of 100mm at the centre of span. Find the slope of cable of support?
A.	0.08 radians
B.	0.01 radians
C.	0.04 radians
D.	0.12 radians
Answer» D. 0.12 radians

Discussion

3.	If the direct stresses are compressive, then the magnitude of principal stresses in prestressed concrete member gets __________
A.	Increased
B.	Decreased
C.	Constant
D.	Zero
Answer» B. Decreased

Discussion

4.	The major principal stresses produced on diagonal plane is expressed as __________
A.	fx + fy/2
B.	fx + fy/2 – 1/2 ((fx – fy)2 + 4τ v2)1/2
C.	fx + fy/2 + 1/2 ((fx – fy)2 + 4τ v2)1/2
D.	fx – fy/2
Answer» C. fx + fy/2 + 1/2 ((fx – fy)2 + 4τ v2)1/2

Discussion

5.	In a prestressed concrete member, the shear stress is generally accompanied by __________
A.	Zone stresses
B.	Anchorage stresses
C.	Direct stresses
D.	Bondage stresses
Answer» D. Bondage stresses

Discussion

6.	The effect of maximum shear stress (τ v) produces __________
A.	Principal tensile stresses
B.	Principal compression stresses
C.	Principal strain stresses
D.	Principal span stresses
Answer» B. Principal compression stresses

Discussion

7.	The strength of concrete subjected to pure shear being nearly twice that in __________
A.	Compression
B.	Tension
C.	Bond
D.	Anchorage
Answer» C. Bond

Discussion

8.	The shear stress is a function of __________
A.	Shear force and Cross section
B.	Principle stresses and elevation
C.	Strain & Compatibility
D.	Axial prestress & tension
Answer» B. Principle stresses and elevation

Discussion

9.	A_PRESTRESSED_CONCRETE_BEAM_OF_SPAN_10M_OF_RECTANGULAR_SECTION,_120MM_WIDE_&_300MM_DEEP_A_CURVED_CABLE_HAVING_AN_ECCENTRICITY_OF_100MM_AT_THE_CENTRE_OF_SPAN._FIND_THE_SLOPE_OF_CABLE_OF_SUPPORT:?$
A.	0.08 radians
B.	0.01 radians
C.	0.04 radians
D.	0.12 radians
Answer» D. 0.12 radians

Discussion

10.	Which_type_of_tensioning_is_generally_uneconomical_for_vertical_prestressing?$
A.	Post tensioning
B.	Pre tensioning
C.	Chemical tension
D.	Thermal tension
Answer» B. Pre tensioning

Discussion

11.	A prestressed concrete beam span 10mm of rectangular section, 120mm wide & 300mm deep is axially prestressed on effective force of 180kn, uniformly distributed load of 5kn/m include the self weight of member. Find maximum shear stress at support?
A.	20.5n/mm<sup>2</sup>
B.	1.05n/mm<sup>2</sup>
C.	15.08n/mm<sup>2</sup>
D.	4.05n/mm<sup>2</sup>
Answer» C. 15.08n/mm<sup>2</sup>

Discussion

12.	How many ways are there for improving the shear resistance of structural concrete members by prestressing techniques?
A.	4
B.	6
C.	3
D.	2
Answer» D. 2

Discussion

13.	If the direct stresses are compressive, then the magnitude of principal stresses in prestressed concrete member gets:
A.	Increased
B.	Decreased
C.	Constant
D.	Zero
Answer» B. Decreased

Discussion

14.	The major principal stresses produced on diagonal plane is expressed as:
A.	f<sub>x</sub> + f<sub>y</sub>/2
B.	f<sub>x</sub> + f<sub>y</sub>/2 ‚Äö√Ñ√∂‚àö√ë‚àö¬® 1/2 ((f<sub>x</sub> ‚Äö√Ñ√∂‚àö√ë‚àö¬® f<sub>y</sub> )<sup>2</sup> +4‚âà√¨‚àö√´ <sub>v</sub><sup>2</sup> )<sup>1/2</sup>
C.	f<sub>x</sub> + f<sub>y</sub>/2 + 1/2 ((f<sub>x</sub> ‚Äö√Ñ√∂‚àö√ë‚àö¬® f<sub>y</sub>)<sup>2</sup> +4‚âà√¨‚àö√´ <sub>v</sub><sup>2</sup> )<sup>1/2</sup>
D.	f<sub>x</sub> ‚Äö√Ñ√∂‚àö√ë‚àö¬® f<sub>y</sub>/2
Answer» C. f<sub>x</sub> + f<sub>y</sub>/2 + 1/2 ((f<sub>x</sub> ‚Äö√Ñ√∂‚àö√ë‚àö¬® f<sub>y</sub>)<sup>2</sup> +4‚âà√¨‚àö√´ <sub>v</sub><sup>2</sup> )<sup>1/2</sup>

Discussion

15.	In a prestressed concrete member, the shear stress is generally accompanied by:
A.	Zone stresses
B.	Anchorage stresses
C.	Direct stresses
D.	Bondage stresses
Answer» D. Bondage stresses

Discussion

16.	The effect of maximum shear stress (‚âà√¨‚àö√´ _v) produces:$
A.	Principal tensile stresses
B.	Principal compression stresses
C.	Principal strain stresses
D.	Principal span stresses
Answer» B. Principal compression stresses

Discussion

17.	The strength of concrete subjected to pure shear being nearly twice that in:
A.	Compression
B.	Tension
C.	Bond
D.	Anchorage
Answer» C. Bond

Discussion

18.	The shear stress is a function of:
A.	Shear force and Cross section
B.	Principle stresses and elevation
C.	Strain & Compatibility
D.	Axial prestress & tension
Answer» B. Principle stresses and elevation

Discussion

Explore topic-wise MCQs in Prestressed Concrete Structures.

Which type of tensioning is generally uneconomical for vertical prestressing?

A prestressed concrete beam of span 10m of rectangular section, 120mm wide & 300mm deep a curved cable having an eccentricity of 100mm at the centre of span. Find the slope of cable of support?

If the direct stresses are compressive, then the magnitude of principal stresses in prestressed concrete member gets __________

The major principal stresses produced on diagonal plane is expressed as __________

In a prestressed concrete member, the shear stress is generally accompanied by __________

The effect of maximum shear stress (τ v) produces __________

The strength of concrete subjected to pure shear being nearly twice that in __________

The shear stress is a function of __________

A_PRESTRESSED_CONCRETE_BEAM_OF_SPAN_10M_OF_RECTANGULAR_SECTION,_120MM_WIDE_&_300MM_DEEP_A_CURVED_CABLE_HAVING_AN_ECCENTRICITY_OF_100MM_AT_THE_CENTRE_OF_SPAN._FIND_THE_SLOPE_OF_CABLE_OF_SUPPORT:?$

Which_type_of_tensioning_is_generally_uneconomical_for_vertical_prestressing?$

A prestressed concrete beam span 10mm of rectangular section, 120mm wide & 300mm deep is axially prestressed on effective force of 180kn, uniformly distributed load of 5kn/m include the self weight of member. Find maximum shear stress at support?

How many ways are there for improving the shear resistance of structural concrete members by prestressing techniques?

If the direct stresses are compressive, then the magnitude of principal stresses in prestressed concrete member gets:

The major principal stresses produced on diagonal plane is expressed as:

In a prestressed concrete member, the shear stress is generally accompanied by:

The effect of maximum shear stress (‚âà√¨‚àö√´ v) produces:$

The strength of concrete subjected to pure shear being nearly twice that in:

The shear stress is a function of:

The effect of maximum shear stress (‚âà√¨‚àö√´ _v) produces:$