366423 A slab consists of two parallel layers of two different materials of same thickness having thermal conductivities \(K_{1}\) and \(K_{2}\). The equivalent conductivity of the combination is

366424 Two metallic blocks \(M_{1}\) and \(M_{2}\) of same area of cross-section are connected to each other (as shown in figure). If the thermal conductivity of \(M_{2}\) is \(K\) then the thermal conductivity of \(M_{1}\) will be : [Assume steady state heat conduction]

366425 I.
Gases are poor thermal conductors.
II.
Liquids have conductivities intermediate between solids and gases.
III.
Heat conduction can take place from cold body to hotter body.
Which of the following statement(s) is/are correct?

366426 Assertion :
If thermal conductivity of a rod is 5 , then its thermal resistivity is 0.2 .
Reason :
Thermal conductivity
\(=\dfrac{1}{\text { thermal resistivity }}\)

366427 The thickness of a metallic plate is \(0.4\;cm\). The temperature between its two surface is \(20^\circ C\). The quantity of heat flowing per second is 50 \(cal\) from \(5\;c{m^2}\) area. In \(CGS\) system, the coefficient of thermal conductivity will be

366423 A slab consists of two parallel layers of two different materials of same thickness having thermal conductivities \(K_{1}\) and \(K_{2}\). The equivalent conductivity of the combination is

366424 Two metallic blocks \(M_{1}\) and \(M_{2}\) of same area of cross-section are connected to each other (as shown in figure). If the thermal conductivity of \(M_{2}\) is \(K\) then the thermal conductivity of \(M_{1}\) will be : [Assume steady state heat conduction]

366425 I.
Gases are poor thermal conductors.
II.
Liquids have conductivities intermediate between solids and gases.
III.
Heat conduction can take place from cold body to hotter body.
Which of the following statement(s) is/are correct?

366426 Assertion :
If thermal conductivity of a rod is 5 , then its thermal resistivity is 0.2 .
Reason :
Thermal conductivity
\(=\dfrac{1}{\text { thermal resistivity }}\)

366427 The thickness of a metallic plate is \(0.4\;cm\). The temperature between its two surface is \(20^\circ C\). The quantity of heat flowing per second is 50 \(cal\) from \(5\;c{m^2}\) area. In \(CGS\) system, the coefficient of thermal conductivity will be

366423 A slab consists of two parallel layers of two different materials of same thickness having thermal conductivities \(K_{1}\) and \(K_{2}\). The equivalent conductivity of the combination is

366424 Two metallic blocks \(M_{1}\) and \(M_{2}\) of same area of cross-section are connected to each other (as shown in figure). If the thermal conductivity of \(M_{2}\) is \(K\) then the thermal conductivity of \(M_{1}\) will be : [Assume steady state heat conduction]

366425 I.
Gases are poor thermal conductors.
II.
Liquids have conductivities intermediate between solids and gases.
III.
Heat conduction can take place from cold body to hotter body.
Which of the following statement(s) is/are correct?

366426 Assertion :
If thermal conductivity of a rod is 5 , then its thermal resistivity is 0.2 .
Reason :
Thermal conductivity
\(=\dfrac{1}{\text { thermal resistivity }}\)

366427 The thickness of a metallic plate is \(0.4\;cm\). The temperature between its two surface is \(20^\circ C\). The quantity of heat flowing per second is 50 \(cal\) from \(5\;c{m^2}\) area. In \(CGS\) system, the coefficient of thermal conductivity will be

366423 A slab consists of two parallel layers of two different materials of same thickness having thermal conductivities \(K_{1}\) and \(K_{2}\). The equivalent conductivity of the combination is

366424 Two metallic blocks \(M_{1}\) and \(M_{2}\) of same area of cross-section are connected to each other (as shown in figure). If the thermal conductivity of \(M_{2}\) is \(K\) then the thermal conductivity of \(M_{1}\) will be : [Assume steady state heat conduction]

366425 I.
Gases are poor thermal conductors.
II.
Liquids have conductivities intermediate between solids and gases.
III.
Heat conduction can take place from cold body to hotter body.
Which of the following statement(s) is/are correct?

366426 Assertion :
If thermal conductivity of a rod is 5 , then its thermal resistivity is 0.2 .
Reason :
Thermal conductivity
\(=\dfrac{1}{\text { thermal resistivity }}\)

366427 The thickness of a metallic plate is \(0.4\;cm\). The temperature between its two surface is \(20^\circ C\). The quantity of heat flowing per second is 50 \(cal\) from \(5\;c{m^2}\) area. In \(CGS\) system, the coefficient of thermal conductivity will be

366423 A slab consists of two parallel layers of two different materials of same thickness having thermal conductivities \(K_{1}\) and \(K_{2}\). The equivalent conductivity of the combination is

366424 Two metallic blocks \(M_{1}\) and \(M_{2}\) of same area of cross-section are connected to each other (as shown in figure). If the thermal conductivity of \(M_{2}\) is \(K\) then the thermal conductivity of \(M_{1}\) will be : [Assume steady state heat conduction]

366425 I.
Gases are poor thermal conductors.
II.
Liquids have conductivities intermediate between solids and gases.
III.
Heat conduction can take place from cold body to hotter body.
Which of the following statement(s) is/are correct?

366426 Assertion :
If thermal conductivity of a rod is 5 , then its thermal resistivity is 0.2 .
Reason :
Thermal conductivity
\(=\dfrac{1}{\text { thermal resistivity }}\)

366427 The thickness of a metallic plate is \(0.4\;cm\). The temperature between its two surface is \(20^\circ C\). The quantity of heat flowing per second is 50 \(cal\) from \(5\;c{m^2}\) area. In \(CGS\) system, the coefficient of thermal conductivity will be