Correct Answer : zero
Correct Answer : True
Correct Answer : parabolic curve
Correct Answer : double riveted lap joint
Correct Answer : p.t.σt
Correct Answer : less than
Correct Answer : a parabolic curve
Correct Answer : maximum at the inner surface and minimum at the outer surface
Correct Answer : False
Correct Answer : more than
Correct Answer : All of the above
Correct Answer : double riveted
Correct Answer : directly proportional to
Correct Answer : wl²/2
Correct Answer : one-eighth
Correct Answer : 45° and 135°
Correct Answer : changing sign
Correct Answer : elastic limit
Correct Answer : ductile
Correct Answer : pd/8t
Correct Answer : zero at the centre to maximum at the circumference
Correct Answer : Agree
Correct Answer : 500 MPa
Correct Answer : T/2
Correct Answer : linear stress to linear strain
Correct Answer : curve C
Correct Answer : Rivets are generally specified by its shank diameter.
Correct Answer : decrease
Correct Answer : one-sixteenth
Correct Answer : four times
Correct Answer : d = 6 √t
Correct Answer : least radius of gyration
Correct Answer : greater than
Correct Answer : pd/4t
Correct Answer : shank diameter
Correct Answer : in tension
Correct Answer : σ cos² θ
Correct Answer : short columns
Correct Answer : their modulus of elasticities
Correct Answer : bolt is Under tension and tube is under compression
Correct Answer : OP
Correct Answer : 400 MPa
Correct Answer : Stress is directly proportional to strain within elastic limit.
Correct Answer : change in volume to the original volume
Correct Answer : 250 MPa
Correct Answer : Correct
Correct Answer : short column
Correct Answer : does not depend
Correct Answer : fixed beam
Correct Answer : d/8
Correct Answer : Yes
Correct Answer : negligible
Correct Answer : wl/2 at one end and - wl/2 at the other end
Correct Answer : one-half
Correct Answer : to run the watch
Correct Answer : equalise the strength in tension and compression
Correct Answer : Poisson's ratio
Correct Answer : nk
Correct Answer : 0.50
Correct Answer : double
Correct Answer : linearly
Correct Answer : yield point
Correct Answer : M
Correct Answer : acts at a point on a beam
Correct Answer : inversely proportional to
Correct Answer : maximum
Correct Answer : tensile stress
Correct Answer : ultimate stress to working stress
Correct Answer : Disagree
Correct Answer : a right angled triangle
Correct Answer : stress
Correct Answer : eight times
Correct Answer : actual diameter of hole drilled for rivet is used
Correct Answer : I/y
Correct Answer : length decreases, width and tickness increases
Correct Answer : 2ε1 + ε2
Correct Answer : 1.5 times
Correct Answer : L = l/√2
Correct Answer : directly
Correct Answer : πd³/32
Correct Answer : 0°
Correct Answer : wl²/8
Correct Answer : overhanging beams
Correct Answer : sum
Correct Answer : an increase in diameter and length of the shell
Correct Answer : more
Correct Answer : elastic constants are same in all the directions
Correct Answer : same bending stress at every section
Correct Answer : 23mm
Correct Answer : normal stresses on planes at 45°
Correct Answer : 15/16
Correct Answer : flexural rigidity
Correct Answer : L = l/2
Correct Answer : 9/8
Correct Answer : mid of the height
Correct Answer : tensile strength
Correct Answer : wl
Correct Answer : from O to A
Correct Answer : hoop stress
Correct Answer : d.t.σc
Correct Answer : linear strain
Correct Answer : any one of the above
Correct Answer : centre of beam
Correct Answer : to apply forces
Correct Answer : neutral axis of the section
Correct Answer : 5:2
Correct Answer : always in double shear
Correct Answer : the layers do not undergo any strain
Correct Answer : -p (compressive)
Correct Answer : √2 s.l.τ
Correct Answer : compressive
Correct Answer : lower yield point
Correct Answer : 1/8
Correct Answer : √2 s.l.σt
Correct Answer : hetrogeneous material
Correct Answer : half the difference of two principal stresses
Correct Answer : 2/3
Correct Answer : shear stress to shear strain
Correct Answer : near the bottom
Correct Answer : point load at the two points
Correct Answer : composite section
Correct Answer : soft brass
Correct Answer : centre and loaded at the ends
Correct Answer : Any one of these
Correct Answer : 210 kN/mm²
Correct Answer : Both (A) and (B)
Correct Answer : 4/3 times
Correct Answer : at the centre
Correct Answer : one-fourth
Correct Answer : bending moment changes sign
Correct Answer : 8/5
Correct Answer : an oblique plane
Correct Answer : smaller end
Correct Answer : strain energy
Correct Answer : measure linear strain
Correct Answer : bottom layer
Correct Answer : 4t
Correct Answer : 1/2
Correct Answer : strain
Correct Answer : long
Correct Answer : top layer
Correct Answer : to measure forces
Correct Answer : thermal stress
Correct Answer : √2
Correct Answer : 50 GPa
Correct Answer : neither in tension nor in compression
Correct Answer : 2C/3
Correct Answer : cantilever beam
Correct Answer : bulk modulus
Correct Answer : 5/14
Correct Answer : bending stress
Correct Answer : bd²/2
Correct Answer : D/d
Correct Answer : permanent
Correct Answer : minimum value of Pt, Ps or Pc
Correct Answer : half
Correct Answer : 0.27 to 0.30
Correct Answer : proportional limit, elastic limit, yielding, failure
Correct Answer : at the fixed end
Correct Answer : 1
Correct Answer : diamond riveted
Correct Answer : circumferential tensile stress
Correct Answer : resilience
Correct Answer : 0.21 to 0.26
Correct Answer : proof resilience
Correct Answer : σ cos θ
Correct Answer : volumetric strain
Correct Answer : increases
Correct Answer : torsion
Correct Answer : OQ
Correct Answer : Wl/4
Correct Answer : l/4
Correct Answer : 50 MPa
Correct Answer : shear stress, shear strain
Correct Answer : crushing stress
Correct Answer : constant bending moment and zero shear force
Correct Answer : increases more quickly
Correct Answer : equal to
Correct Answer : pd/2t
Correct Answer : margin
Correct Answer : σ/2 sin 2θ
Correct Answer : the ratio of wall thickness of the vessel to its diameter is greater than 1/10
Correct Answer : at right angle to the plane in which the beam bends
Correct Answer : fixed at one end and free at the other end
Correct Answer : leaf spring
Correct Answer : δl/l
Correct Answer : A uniformly distributed load spreads uniformly over the whole length of a beam.
Correct Answer : ultimate stress
Correct Answer : 4
Correct Answer : length increases, width and thickness decreases
Correct Answer : twisting moment
Correct Answer : one end fixed and the other end free
Correct Answer : l/2
Correct Answer : no stress
Correct Answer : twice
Correct Answer : 1400 MPa
Correct Answer : energy stored in a body when strained within elastic limits
Correct Answer : leak-proof
Correct Answer : long columns
Correct Answer : minimum moment of inertia
Correct Answer : uniformly distributed load over the whole length
Correct Answer : stress, pressure and modulus of rigidity
Correct Answer : 0.001 l/L
Correct Answer : both rod and tube are under compression
Correct Answer : the ratio of its length to the least radhis of gyration is less than 80.
Correct Answer : maximum at the inner surface arid zero at the outer surface
Correct Answer : spring stiffness
Correct Answer : chain riveted
Correct Answer : 1.5 d
Correct Answer : continuous beam
Correct Answer : square beam is more economical
Correct Answer : brittle
Correct Answer : overhanging beam
Correct Answer : direct and bending stress both
Correct Answer : shear stress
Correct Answer : pitch
Correct Answer : tensile stress, tensile strain
Correct Answer : supported on more than two supports
Correct Answer : π/2 x d² x τ
Correct Answer : decreases
Correct Answer : thick cylindrical shells
Correct Answer : strain is proportional to the distance from the neutral axis
Correct Answer : 1/7500
Correct Answer : steel and concrete both
Correct Answer : the material A is more ductile than material B
Correct Answer : bottom fibre
Correct Answer : two right angled triangles
Correct Answer : 15 kN/m²
Correct Answer : no unit
Correct Answer : T/θ
Correct Answer : cast iron
Correct Answer : does not exist
Correct Answer : one-third
Correct Answer : uniformly varying load between the two points
Correct Answer : length of column to least radius of gyration
Correct Answer : polar modulus
Correct Answer : -100 MPa
Correct Answer : modulus of elasticity