The triple point of neon and carbon dioxide are `24.57K` and `216.55K` respectively. Express these temperature on the Celsius and Fahrenheit scales.

The triple point of neon and carbon dioxide are 24.57 K and 216.55 K respectively. Express the temperature on the Celsius and Fahrenheit scales respectively.

On a new scale of temperature (which is linear) and caller the W scale , the freezing and boiling points of water are 39^@ W and 239^@ W respectively . What will be the temperature on the new scale , corresponding to a temperature of 39^@C on the celsius scale?

An iron bar (L_(1) = 0.1 m , A_(1) = 0.02 m^(2), K_(1) = 79 W m^(-1) K^(-1)) and a brass bar (L_(2) = 0.1 m, A_(2) = 0.02 m^(2) , K_(2) = 109 W m^(-1) K^(-1)) are soldered end to end as shown in Fig. 11.16. The free ends of the iron bar and brass bar are maintained at 373 K and 273 K respectively. Obtain expressions for and hence compute (1) the temperature of the function of the two bars, (11) the equivalent thermal conductivity of the compound bar, and (111) the heat current through the compound bar.

Vanderwaal's constant in litre atmosphere per mole for carbon dioxide are a = 3.6 and b = 4.28 xx 10^(-2) . Calculate the critical temperature and critical volume of the gas. R = 0.0820 lit atm K^(-1). Mol^(-1)

Assert ion (A) : 0 . ^(@) C = 273 . 16 K . For our convenience we take is as 273 K after roundig off the decimal . Reason (R) : To convert a temperature on the Celsius scale we have to add 273 to the give temperature.

If 4 hat i+7 hat j+8 hat k ,2 hat i+3 hat j+24a n d2 hat i+5 hat j+7 hat k are the position vectors of the vertices A ,Ba n dC , respectively, of triangle A B C , then the position vecrtor of the point where the bisector of angle A meets B C is a. 2/3(-6 hat i-8 hat j- hat k) b. 2/3(6 hat i+8 hat j+6 hat k) c. 1/3(6 hat i+13 hat j+18 hat k) d. 1/3(5 hat j+12 hat k)

A vessel of volume 2000cm^(3) contains 0.1mol of oxygen and 0.2mol of carbon dioxide. If the temperature of the mixture is 300K, find its pressure.

A resistance thermometer reads R=20.0Omega, 27.5 Omega, and 50.0 Omega at the ice point (0^@C) , the steam point (100^@C) and the zinc point (420^@C) respectively. Assuming that the resistance varies with temperature as R_Theta=R_0(1+alphaTheta+betaTheta^2) , find the values of R_0 , alpha and beta . Here Theta represents the temperature on Celsius scale.