A temperature of \(100^{\circ}\text {F}\) (Fahrenheit scale) is equal to \(T~\text{K}\) (Kelvin scale). The value of \(T\) is:
1. \(310.9\)
2. \(37.8\)
3. \(100\)
4. \(122.4\)

The temperature of a body on Kelvin scale is found to be X K. When it is measured by a Fahrenheit thermometer, it is found to be X⁰F. Then X is

1. 301.25

2. 574.25

3. 313

4. 40

On a new scale of temperature (which is linear) and called 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?

1. $78°W$                                   

2. $117°W$

3. $200°W$                                 

4. $139°W$

At what temperature do both the Centigrade and Fahrenheit thermometers show the same reading
1. –20$°$

2. –40$°$

3. 42$°$

4. 0$°$

The temperature of substance increases by 27°C this increases is equal to (in kelvin)

1.  300 K

2.  2.46 K

3.  27 K

4.  7 K

The temperature of a substance increases by $27°\mathrm{C}$. On the Kelvin scale, this increase is equal to

1.  300 K

2.  2.46 K

3.  27 K

4.  7 K 

In a new temperature scale, freezing point of water is given a value $10\mathrm{x}$ and boiling point of water is $90\mathrm{x}$. Reading of new temperature scale for a temperature equal to $10°\mathrm{C}$ is 

1.  $14\mathrm{x}$

2.  $16\mathrm{x}$

3.  $18\mathrm{x}$

4.  $12\mathrm{x}$

The temperature of a body on the Kelvin scale is found to be \(x^\circ~\text K.\) When it is measured by a Fahrenheit thermometer, it is found to be \(x^\circ~\text F,\) then the value of \(x\) is:
1. \(40\)
2. \(313\)
3. \(574.25\)
4. \(301.25\)

The fundamental interval, that is the number of division between LFP & UFP on the two scales X and Y are 50 and 150 respectively. The ice point on both the scales is  $0°$. If the temperature on the X-scale is $15°$, then what is the temperature on the Y-scale ?

$1. 30°$
$2. 45°$
$3. 60°$
$4. 75°$

Recently, the phenomenon of super conductivity has been observed at 73 K. This temperature is nearly equal to

1. $-288°\mathrm{F}$

2. $-146°\mathrm{F}$

3. $-328°\mathrm{F}$

4. $+178°\mathrm{F}$