Its temperature will increase
Its pressure will increase
Both temperature and pressure will increase
Neither temperature nor pressure will increase
C. Both temperature and pressure will increase
Energy stored in a body when strained within elastic limits
Energy stored in a body when strained up to the breaking of a specimen
Maximum strain energy which can be stored in a body
Proof resilience per unit volume of a material
(p - 2d) t × σc
(p - d) t × τ
(p - d) t × σt
(2p - d) t × σt
Plastic limit
Elastic limit
Yield point
Limit of proportionality
t
2t
4t
8t
One right angled triangle
Two right angled triangles
One equilateral triangle
Two equilateral triangles
Cd⁴/D3n
Cd⁴/2D3n
Cd⁴/4D3n
Cd⁴/8D3n
Chain riveted joint
Diamond riveted joint
Crisscross riveted joint
Zigzag riveted joint
Heat and work crosses the boundary of the system, but the mass of the working substance does not crosses the boundary of the system
Mass of the working substance crosses the boundary of the system but the heat and work does not crosses the boundary of the system
Both the heat and work as well as mass of the working substance crosses the boundary of the system
Neither the heat and work nor the mass of the working substance crosses the boundary of the system
Not deform
Be safest
Stretch
Not stretch
Energy stored in a body when strained within elastic limits
Energy stored in a body when strained up to the breaking of the specimen maximum strain
Energy which can be stored in a body
None of the above
mR (T2 - T1)
mcv (T2 - T1)
mcp (T2 - T1)
mcp (T2 + T1)
Wood
Coke
Anthracite coal
Pulverised coal
Reversible
Irreversible
Reversible or irreversible
None of these
(σx + σy)/2 + (1/2) × √[(σx - σy)² + 4 τ²xy]
(σx + σy)/2 - (1/2) × √[(σx - σy)² + 4 τ²xy]
(σx - σy)/2 + (1/2) × √[(σx + σy)² + 4 τ²xy]
(σx - σy)/2 - (1/2) × √[(σx + σy)² + 4 τ²xy]
Its temperature will increase
Its pressure will increase
Both temperature and pressure will increase
Neither temperature nor pressure will increase
Same as
Less than
Greater than
None of these
0.224 litres
2.24 litres
22.4 litres
224 litres
Greater than
Less than
Equal to
None of these
cv/ cp =R
cp - cv = R
cv = R/ γ-1
Both (B) and (C)
Oxygen
Nitrogen
Hydrogen
Methane
Ends are firmly fixed
Column is supported on all sides throughout the length
Length is equal to radius of gyration
Length is twice the radius of gyration
Calorific value
Heat energy
Lower calorific value
Higher calorific value
Hookes law
Yield point
Plastic flow
Proof stress
Two constant volume and two isentropic
Two constant pressure and two isentropic
Two constant volume and two isothermal
One constant pressure, one constant volume and two isentropic
4 tonnes/ cm²
8 tonnes/ cm²
16 tonnes/ cm²
22 tonnes/ cm²
Same
Double
Half
Four times
Greater than
Less than
Equal to
None of these
Perfect gas
Air
Steam
Ordinary gas
Longitudinal stress to longitudinal strain
Volumetric stress to volumetric strain
Lateral stress to Lateral strain
Shear stress to shear strain
Boyle's law
Charles' law
Gay-Lussac law
Avogadro's law