A steel rod `(Y = 2.0xx10^(11) N//m^(2)` and `alpha = 10^(-50) .^(0)C^(-1)`) of length `1m` and area of cross-section `1cm^(2)` is heated from `0^(@)C` to `200^(@)C` without being allowed to extended or bend. Then the tension produced in the rod is

A steel rod (Y = 2.0 xx 10^(11) N//m^(2) " and "alpha = 10^(-50).^(@)C^(-1)) of length 1 m and area of cross-section 1 cm^(2) is heated from 0.^(@)C to 200^(@)C , without being allowed to extend or bend. What is the tension produced in the rod?

A steel rod (Y = 2.0 xx 10^(11) N//m^(2) " and "alpha = 10^(-50).^(@)C^(-1)) of length 1 m and area of cross-section 1 cm^(2) is heated from 0.^(@)C to 200^(@)C , without being allowed to extend or bend. What is the tension produced in the rod?

A steel rod (Y = 2.0 xx 10^11 N m^-2) and alpha = 10^-5 ^@C^-1) of length 1 m and area of cross-section 1 cm62 is heated form 0 ^@C to 200 ^@C , without being allowed to extend or bend. What is the tension produced in the rod?

A steel rod with y = 2.0 xx 10^11 Nm^(-2) and alpha = 10^(-5)""^@C^(-1) of length 4 m and area of cross - section 10 cm^2 is heated from 0^@C to 400^@C without being allowed to extend. The tension produced in the rod is x xx 10^5 N where the value of x is __________.

A steel rod of length 1 m and area of cross section 1 cm^(2) is heated from 0^(@)C to 200^(@)C without being allowed to extend or bend. Find the tension produced in the rod (Y=2.0 xx 10 ^(11) Nm ^(-1) , alpha = 10 ^(-5) ^(@)C ^(-1))

The temperature of a wire of length 1 metre and area of cross-section 1 cm^(2) is increased from 0^(@)C to 100^(@)C . If the rod is not allowed to increased in length, the force required will be (alpha=10^(-5)//.^(@)C and Y =10^(11) N//m^(2))

The temperature of a wire of length 1 metre and area of cross-section 1 cm^(2) is increased from 0^(@)C to 100^(@)C . If the rod is not allowed to increased in length, the force required will be (alpha=10^(-5)//.^(@)C and Y =10^(11) N//m^(2))

The temperature of a rod of length 1 meter and area of cross-section 1 cm^(2) is increased from 0^(@)C to 100^(@)C . If the rod is ot allowed to increase in length, the force required will be: (alpha=10^(-6)//""^(@)C and Y=10^(11)N//m^(2))

The temperature of a wire length 1 m and area of cross-section 1 cm^(2) is increased from 0^(@)C to 100^(@)C . If the rod is not allowed to increase in length, then the force, required will be (alpha = 10^(-5) .^(@)C^(-1) and Y = 10^(11) Nm^(-2) )

If the temperature of a wire of length 2 m and area of cross-section 1 cm^2 is increased from 0^(@) C to 80^(@) C and is not allowed to increase in length, then force required for it is (Y= 10^10 N//m^2, prop=10^-6//^(@)C)