A rod has variable co-efficient of linear expansion `alpha = (x)/(5000)`. If length of the rod is `1` m . Determine increase in length of the rod in (cm) on increasing temperature of the rod by `100^(@)C`.

The increase in length of rod when it is heated does not depend on the

The length of a rod is (11.05+-0.05)cm . What is the length of two such rods?

The coefficient of linear expansion of a metal rod does not depend uponthe original length of the rod

Two rods, one of aluminium and other made of steel, having initial lengths l_(1) and l_(2) are connected together to form a single rod of length (l_(1)+l_(2)) . The coefficient of linear expansions for aluminium and steel are alpha_(a) and alpha_(s) respectively. If length of each rod increases by same amount when their tempertures are raised by t^(@)C , then find the ratio l_(1) (l_(1)+l_(2)) .

Two rods, one of aluminium and the other made of steel, having initial length l_1 and l_2 are connected together to from a single rod of length l_1+l_2. The coefficients of linear expansion for aluminium and steel are alpha_a and alpha_s and respectively. If the length of each rod increases by the same amount when their temperature are raised by t^0C, then find the ratio l_1//(l_1+l_2)

Two rods, one of aluminium and the other made of steel, having initial length l_1 and l_2 are connected together to from a single rod of length l_1+l_2. The coefficients of linear expansion for aluminium and steel are alpha_a and alpha_s and respectively. If the length of each rod increases by the same amount when their temperature are raised by t^0C, then find the ratio l_1//(l_1+l_2)

Two rods, one of aluminium and the other made of steel, having initial length l_1 and l_2 are connected together to from a single rod of length l_1+l_2. The coefficients of linear expansion for aluminium and steel are alpha_a and alpha_s and respectively. If the length of each rod increases by the same amount when their temperature are raised by t^0C, then find the ratio l_1//(l_1+l_2)

Two rods of different metals having the same area of cross section A are placed between the two massive walls as shown is Fig. The first rod has a length l_1 , coefficient of linear expansion alpha_1 and Young's modulus Y_1 . The correcsponding quantities for second rod are l_2,alpha_2 and Y_2 . The temperature of both the rods is now raised by t^@C . i. Find the force with which the rods act on each other (at higher temperature) in terms of given quantities. ii. Also find the length of the rods at higher temperature.

Two rods of different metals having the same area of cross section A are placed between the two massive walls as shown is Fig. The first rod has a length l_1 , coefficient of linear expansion alpha_1 and Young's modulus Y_1 . The correcsponding quantities for second rod are l_2,alpha_2 and Y_2 . The temperature of both the rods is now raised by t^@C . i. Find the force with which the rods act on each other (at higher temperature) in terms of given quantities. ii. Also find the length of the rods at higher temperature.

Two rods of lengths l_(1) and l_(2) are made of materials having coefficients of linear expansion alpha_(1) and alpha_(2) respectively. What could be the relation between above values, if the difference in the lengths of the two rods does not depends on temperature variation?