The function 't' which maps temperature in degree Celsius into temperature in degree Fahrenheit is defined by `t(C)=(9C)/(5)+32`
Find (i) t(0) (ii) t(28) (iii) t(-10) (iv) The value of C, when t(C)=212.

If s = at^(2) + bt + c find the value of [(ds)/(dt)]_(t=1) .

A solution is to be kept between 68° F and 77° F. What is the range in temperature in degree Celsius (C) if the Celsius / Fahrenheit (F) conversion formula is given by F=(9)/(5) C+32 ?

The temperature of a solution is to be kept between 35^@C and 45^@C . Find the range of temperature in degree Fahrenheit, given that the conversion formula of Fahrenheit (F) and Celcius ( C ) is C/5=(F-32)/9

In countries like USA and Canada temperature is measured in Fahrenheit where as in countries like India, it is measured in Celsius. Here is a linear equation that converts Fahrenheit to Celsius F = (9/5)C + 32 Is there a temperature that has numerically the same value in both Fahrenheit and Celsius? If yes find it?

In countries like USA and Canada temperature is measured in Fahrenheit where as in countries like India, it is measured in Celsius. Here is a linear equation that converts Fahrenheit to Celsius F = (9/5)C + 32 If the temperature is 30°C, what is the temperature in Fahrenheit?

Under what condition can a gas be liquefied? (1) T=T_(c) and P lt P_(c) (2) T lt T_(c) and P=P_(c)

IF rho is the resistivity at temperature T, then the temperature coefficient of resistivity is defined as alpha=(1drho)/(rhodT) , which is a constant physical quantity for a given metal, show that rho=rho_0e^(a(T-T_0)), where rho_0 = resistivity at temperature T_0 .

The critical temperature and the critical pressure of a gas are T_(c) and P_(c) , respectively. If the gas exists at a temperature of T and a pressure P, then under which of the following conditions will the gas not be liquefied? (i) T gt T_(c) , P gt P_(c) (ii) T=T_(c),PgtP_(c) (iii) T=T_(c),PltP_(c) (iv) T lt T_(c),P=P_(c)