Find the net vertical displacement of point O, when a mass of 2.5 kg is suspended from the mid-point O of the rod shown `(Y=2xx10^(11)N//m^(2))`.

A mild steel wire of length 1.0 m and cross-sectional are 0.5 xx 10^(-2)cm^(2) is streached, well within its elastic limit, horizontally between two pillars. A mass of 100 g is suspended from the mid point of the wire, calculate the depression at the mid point. g = 10ms^(-2), Y=20 xx 10^(11)Nm^(-2 .

A horizontal aluminum rod of diameter 4.8 cm projects 5.3 cm from a wall. A 1200 kg object is suspended from the end of the rod. The shear modulus of aluminum is 3.0xx10^(10)N//m^(2) . Neglecting the mass of the rod find a shearing stress on the rod and b the vertical deflection of the end of the rod.

A uniform rod of length 20 cm is clamped at the two points A and B as shown. Then the fundamental frequency of longitudinal vibration of the rod is (Y=2xx10^(11) N//m^2,rho=8xx10^3 kg//m^3)

A metallic rod of length 1m is rigidly clamped at its mid point. Longirudinal stationary wave are setup in the rod in such a way that there are two nodes on either side of the midpoint. The amplitude of an antinode is 2 xx 10^(-6) m . Write the equation of motion of a point 2 cm from the midpoint and those of the constituent waves in the rod, (Young,s modulus of the material of the rod = 2 xx 10^(11) Nm^(-2) , density = 8000 kg-m^(-3) ). Both ends are free.

A sphere of radius 10 cm and mass 25 kg is attached to the lower end of a steel wire of length 5 m and diameter 4 mm which is suspended from the ceiling of a room . The point of support is 521 cm above the floor. When the sphere is set swinging as a simple pendulum, its lowest point just grazes the floor. Calculate the velocity of the ball at its lowest position (Y_(steel) = 2xx10^(11) N//m^(2)) .

From the fixed pulley, masses 2 kg, 1 kg and 3 kg are suspended as shown is figure. Find the extension in the spring when acceleration of 3 kg and 1 kg is same if spring constant of the spring k = 100 N/m. (Take g = 10 ms^(-2) )

A mass of 6 kg is suspended by a rope of length 2 m from the ceilling A force of 50 N in the horizontal direction is applied at the mid - point P of the rope as shown . What is the angle the rope makes with the vertical in equilibrium ? (Take = 10 ms^(-2) ) . Neglect mass of the rope .

If O is the origin and Q is a variable point on y^2=xdot Find the locus of the mid point of \ O Qdot

A steel wire of negligible mass, length 2I , cross sectional area 'A' and Young's modulus 'Y' is held between two rigid walls. A small body of mass 'm' is suspended from its middle point 'O' as shown. The vertical descent of the middle point 'O' of the wire is

A thin rod of negligible mass and a cross-section of 2 xx 10^(-6) m^(2) suspended vertically from one end, has a length of 0.5 m at 200^(@)C . The rod is cooled at 0^(@)C , but prevented from contracting by attaching a mass at the lower end. The value of this mass is : (Young's modulus =10^(11) N//m^(2) , Coefficient of linear expansion 10^(-5) K^(-1) and g = 10 m//s^(2) ):