A thermostable DNA polymerase, which remains active during the high temperature induced denturation of double j- stranded DNA is isolated from a bacterium

A refrigerator, whose coefficient of performance K is 5, extracts heat from the cooling compartment at the rate of 250 J per cycle. How much heat per cycle is discharged to the room which acts as the high temperature reservoir ?

Consider the following statement about therapeutic drugs: I) Recombinant DNA technology is used for production of therapeutic drugs which are safe and effective. II) It avoid unwanted immunological responses commonly observed with similar products isolated from non human sources. III) About thirty recombinant therapeutics have been approved for human use in India. Which of the following statements given above are correct?

The phase of cell cycle during which DNA polymerase is functionally active, is

A 0.60 kg sample of water ans a sample of ice are placed in two compartments A and B that are separated by a conducting wall in a thermally insulated container. The rate of heat transfer from the water to the ice through the conducting wall is constant P, until thermal equilibrium is reached. The temperatures T of the liquid water and the ice are given in graph as functions of time t. Temperatures of the compartments remain homogeneous during the whole heat transfer process. Given, specific heat of ice = 2100 J/kg-K Specific heat of water = 4200 J/kg-K latent heat of fusion of ice = 3.3 xx 10^(-5) J/kg The value of rate P is

A 0.60 kg sample of water ans a sample of ice are placed in two compartments A and B that are separated by a conducting wall in a thermally insulated container. The rate of heat transfer from the water to the ice through the conducting wall is constant P, until thermal equilibrium is reached. The temperatures T of the liquid water and the ice are given in graph as functions of time t. Temperatures of the compartments remain homogeneous during the whole heat transfer process. Given, specific heat of ice = 2100 J/kg-K Specific heat of water = 4200 J/kg-K latent heat of fusion of ice = 3.3 xx 10^(-5) J/kg The initial mass of the ice in the container is equal to

A 0.60 kg sample of water ans a sample of ice are placed in two compartments A and B that are separated by a conducting wall in a thermally insulated container. The rate of heat transfer from the water to the ice through the conducting wall is constant P, until thermal equilibrium is reached. The temperatures T of the liquid water and the ice are given in graph as functions of time t. Temperatures of the compartments remain homogeneous during the whole heat transfer process. Given, specific heat of ice = 2100 J/kg-K Specific heat of water = 4200 J/kg-K latent heat of fusion of ice = 3.3 xx 10^(-5) J/kg The mass of the ice formed due to conversion from hte water till thermal equilibrium is reached , is equal to

During transcription, the DNA site at which RNA polymerase binds is called