The length of a rod is `5 xx 10^(2)` m , the order of magnitude of the length of the rod is

The length of a rod is exactly 1 m when measured at rest . What will be its length when it moves at a speed of (a) 3 xx 10^(5)m s ^(-1) (b) 3 xx 10^(6) m s^(-1) and ( c) 3 xx 10^(7) m s ^(-1) ?

A rod of tranverse section 3 xx 10^(-6)m^(2) is magnetized lengthwise to saturation by a strong magnetic field. The magnetic moment of each atom of the material of the rod is 10 mu_(B) ( mu_(B) is the Bohr magnetic) . Calculate the pole strength of the rod if its length is 10cm . There are 5 xx 10^(21) atoms per unit volume of the rod. (mu_(B)=9.2 xx 10^(-24)Am^(2))

A steel rod has a radius 10mm and a length of 1m . A force stretches it along its length and produces a strain of 0.32% . Younng's modulus of steel is 2xx10^(11)Nm^(-2) , the magnitude of force stretching the rod is

If linear density of a rod of length 3m varies as lambda = 2 + x, them the position of the centre of gravity of the rod is

The temperature gradient in a rod of 0.5 m length is 80^(@)C//m . It the temperature of hotter end of the rod is 30^(@)C , then the temperature of the cooler end is

The length of a rod is 20 cm and area of cross section 2cm^2 . The Young's modulus of the amterial of wire is 1.4xx10^11(N)/(m^2) . If the rod is compressed by 5 kg-wt along its length, then increase in the energy of the rod in joules will be

What should be the length of steel and copper rods at 0^(@)C that the length of steel rod is 5 cm longer than copper at all termperature? Given alpha_(Cu) = 1.7 xx 10^(5) .^(@)C^(-1) and alpha_(steel) = 1.1 xx 10^(5) .^(@)C^(-1) .

The length of a rod is 2.5 cm and diameter is 2.5 mm. The volume of the rod with due consideration to significant figures is

Two rods of equal cross sections, one of copper and the other of steel, are joined to form a composite rod of length 2.0 m at 20^@C , the length of the copper rod is 0.5 m. When the temperature is raised to 120^@C , the length of composite rod increases to 2.002m. If the composite rod is fixed between two rigid walls and thus not allowed to expand, it is found that the lengths of the component rods also do not change with increase in temperature. Calculate Young's moulus of steel. (The coefficient of linear expansion of copper, alpha_c=1.6xx10^(-5@)C and Young's modulus of copper is 1.3xx10^(13)N//m^(2) ).