What is the temperature of the steel-copper junction in the steady state of the system shown in Fig. 11.15. Length of the steel rod = 15.0 cm, length of the copper rod = 10.0 cm, temperature of the furnace `= 300^(@)C`, temperature of the other end = `0^(@)C`. The area of cross section of the steel rod is twice that of the copper rod. (Thermal conductivity of steel `= 50.2 J s^(–1) m^(–1)K^(–1)`, and of copper `= 385 J s^(–1)m^(–1)K^(–1))`.

What is the temperature of the steel - copper junction in the steady state of the system shown in Fig. Length of the steel rod = 15.0 cm, length of the copper rod = 10.0 cm, temperature of the furnace =400" "^(@)C , temperature of the other end =0" "^(@)C . The area of cross section of the steel rod is twice that of the copper rod. (Thermal conductivity of steel =50.2" J s"^(-1)m^(-1)K^(-1), and of copper =385" J s"^(-1)m-1" "K^(-1) ).

What is the temperature of the steel-copper junction is the steady state of the system shown in figure. Length of the steel rod = 15.0 cm, length of the copper rod = 10.0 cm, temperature of the furnace =300^(@)C , temperature of the other end =0^(@)C . The area of cross section of the steel rod is twice that of the copper rod. (Thermal conductivity of steel =50.2" Js"^(-1)m^(-1)K^(-1) , and copper =385" Js"^(-1)m^(-1)KJ^(-1) ).

What is the temperature of the steel-copper junction in the steady state system show in Fig. 7(e).17 ? Length of steel rod = 15.0 cm, length of the copper rod = 10.0 cm, temperature of the furnace =300^(@)C , temperature of other end 0^(@)C . The are of cross-section of the steel rod is twice that of the copper rod. (Thermal conductivity of steel =50.2 js^(-1) m^(-1) K^(-1) and of copper =3895 js^(-1) m^(-1) K^(-1) ).

What is the temperature of the steel-copper junction in the steady state system show in Fig. 7(e).17 ? Length of steel rod = 15.0 cm, length of the copper rod = 10.0 cm, temperature of the furnace =300^(@)C , temperature of other end 0^(@)C . The are of cross-section of the steel rod is twice that of the copper rod. (Thermal conductivity of steel =50.2 js^(-1) m^(-1) K^(-1) and of copper =3895 js^(-1) m^(-1) K^(-1) ).

What is the temperature of steel-copper jumction in the steady state of the system shown in fig. Length of the steel rod = 30.0 cm, length of the copper rod = 20.0 cm, temperature of the furnace = 300^(@)C , temperature of cold end =0^(@)C . The area of cross-section of the steel rod is twice that of the copper rod. thermal conductivity of steel = 50 .2 Js^(-1) m^(-1) .^(@)C^(-1) and of copper = 358 Js^(-1) m^(-1) .^(@)C^(-1) .

What is the temperature of the steel -copper junction in the steady state of the system shown in the figure. Length of the steel rod =25cm , length of the copper rod =50cm , temperature of the furance =300^(@)C , temperature of the other end =0^(@)C . The area of cross section of the steel rod is twice that of the copper rod. (Thermal conductivity of steel =50Js^(-1)m^(-1)K^(-1) and of copper =400 J s^(-1)m^(-1)K^(-1) )

What is the temperature of the steel copper junction in the steady state of the system shown if Fig. Length of the steel rod =25cm , length of the copper rod =50cm , temperature of the furnace =300^@C , temperature of the other end =0^@C . The area of cross section of the steel rod is twice that of the copper rod. (Thermal conductivity of steel =50J//s//m and of copper =400Js//m//K ).

What is the temperature of the steel - copper junction in the steady state of the system shown in Fig.11.15. Length of the steel rod = 15.0 cm, length of the copper reod = 10.0 cm, temperarure of the furnace = 300 ^(@) C , temperature of the furnace = 300 ^(@) C , temperature of the other end = 0^(@) C . The are of cross section of the steel rod is twice that of the copper rod. ( Thermal conductivity of steel = 50.2 J s^(-1) m^(-1) K^(-1) , and of copper = 385 J s^(-1) m^(-1) K^(-1)) .