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A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]
A metal rod of length 20 cm and diameter 1 cm is covered with non-conducting substance. One of its end is maintained at 100°C, while the other end is put in ice at 0°C. It is found that 25 gm of ice melts in 5 minutes . Calculate the co-efficient of thermal conductivity of the metal in cm-1°C-1S-1. [ specific latent heat of ice : 80 cal/g/°C]