In Newton's law of cooling, if the rates of emission of radiation by a calorimeter from 90 DC to 85 DC, 85 °C to 80 °C-and from 80 °C to 75 °C are `E_1,E_2` and `E_3` respectively, then

A pan filled with hot food cools from 50 °C to 49.9 °C in 5 s. If it cools from 40 °C to 3 9.9 °C in 10 s, then room temperature is

A bucket full of hot water cools from 75^@C to 70^@C in time T_1 from 70^@C to 65^@C in time T_2 , and from 65@C to 60^@C in time T_3 , then

Calculate the electric field due to a charge of -8.0 xx 10^-8 C at a distance of 5.0 cm from it

A liquid with a certain surface area takes 5 minutes to cool from 80^@C to 70^@C . The time taken by it to cool from 80^@C to 60^@C is [The surrounding temperature being 40^@C ]

An object kept in a large room having air temperature of 25^@C takes 12 minutes to cool from 80^@C to 70^@C . The time taken to cool for the same object from 70^@C to 60^@C would be nearly,

In a potentionmeter experiment, when three cells A, B and C are connected in series, the balancing length is found to be 740 cm. If A and B are connected in series, balancing length is 440 cm and for B and C connected in series, it is 540 cm. The emf of E_(A),E_(B) and E_(C) are respectively (in volts)

According to Kirchhoff's law of radiation at a temperature......... A. a=e B. E/E_b=e C. E/a=E_b D. Both (a) and (c)

30 gm of ice at 0^@C is placed in a calorimeter of mass 20 gm also at 0^@C . 100 gm of water at 90^@C is poured into the calorimeter. Find the final temperature. (specific heat of calorimeter = 0.4 cal//gm ^@C , Specific heat of water = 0.42 cal//gm ^@C Latent heat of fusion of ice = 80calg )

IF a coin is tossed twice and X is the number of tails, then E(X)= (a) 0 (b) 1 (c) 2 (d) 3

The rate law for the reaction C_2H_4Br_2+3I^- rarr C_2H_4+2Br^-+I_3^- is rate = k[C_2H_4Br_2] [I^-] . The rate of the reaction is found to be 1.1xx10^(-4)M//s when the concentrations of C_2H_4Br_2 and I^- are 0.12M and 0.18M respectively. Calculate the rate constant of the reaction.