A bar of iron is 10 cm at `20^(@)C`. At `19^(@)C` it will be `(alpha_(Fe)=11xx10^(-6)//.^(@)C)`

A bar of iron is 10 cm at 20^(@)C . At 19^(@)C it will be ( alpha of iron =11xx10^-6//^(@)C )

Consider a metal scale of length 30cm and an object. The scale is calibrated for temp 20^(@)C . (a) What is the actual length of division which is shown as 1cm by scale at 40^(@)C . Given alpha_(s) = 2 xx 10^(-5)//"^(@)C . (b) What will be the reading of scale at 40^(@)C if the actual length of objects is 10cm . (c ) What will be the actual length of object at 40^(@)C if is measured length is 10cm . (d) What is % error in measurement for part (b) and (c). (e) If the linear expansion coefficient of object is alpha_(0) = 4 xx 10^(-5) and neglecting the expansion of scale, then answers of (b) and (c) parts. (f) If alpha_(0) = 4 xx 10^(-5) and alpha_(s) =2xx 10^(-5) then find answers of (b) and (c) part.

A glass rod when measured with a zinc scale, both being at 30^(@)C , appears to be of length 100 cm . If the scale shows correct reading at 0^(@)C , then the true length of glass rod at 30^(@)C and 0^(@)C are :- ( alpha_("glass") = 8 xx 10^(-6)"^(@)C ^(-1), alpha_("zinc") = 26 xx 10^(-6) K^(-1) )

What will be the stress at -20^(@) C, if a steel rod with a cross-sectional area of 150 mm^(2) is stretched between two fixed points? The tensile load at 20^(@) C is 5000 N (Assume, alpha=11.7xx10^(-6)//^(@)C and Y = 200 xx 10^(11) N//m^(2) )

A steel rod is 4.00cm in diameter at 30^(@)C A brass ring has an interior diameter of 3.992cm at 30^(@) in order that the ring just slides onto the steel rod the common temperature of the two should be nearly (alpha_(steel) = 11xx10^(-6)(^(@)C) and alpha_(brass)=19xx10^(-6)(^(@)C)

A steel rod of length 25cm has a cross-sectional area of 0.8cm^(2) . The force required to stretch this rod by the same amount as the expansion produced by heating it through 10^(@)C is (alpha_(steel)=10^(-5)//^(@)C and Y_(steel)=2xx10^(10)N//m^(2))

The design of some physical instrument requires that there be a constant difference in length of 10 cm between an iron rod and a copper cylinder laid side by side at all temperature find their lengths (alpha_(Fe)=11 xx 10^(6).^(@)C^(-1),alpha_(Cu)=17 xx 10^(-6) .^(@)C^(-1))

A second's clock with a iron pendulum is constructed so a to keep correct time at 10^(@)C . Give alpha_("iron")=12xx10^(-6) per ""^(@)C . What will be the change in the rate when the temperature rises to 25^(@)C ?

A brass rod and a lead rod each 80 cm long at 0^@C are clamped together at one end with their free ends coinciding. The separatioin of free ends of the rods if the system is placed in a steam bath is ( alpha_("brass")=18xx10^(-6)//^(@)C and alpha_("lead")=28xx10^(-6)//^(@)C )

A brass rod and a lead rod each 80 cm long at 0^@C are clamped together at one end with their free ends coinciding. The separatioin of free ends of the rods if the system is placed in a steam bath is ( alpha_("brass")=18xx10^(-6)//^(@)C and alpha_("lead")=28xx10^(-6)//^(@)C )