Calculate N(T)/N(1000 K) for Tungsten Emitter at T = 300 K, 2000 K and 3000 K, Where N(T) Represents the Number of Thermions Emitted per Second by the Surface at Temperature T.

प्रश्न

Calculate n(T)/n(1000 K) for tungsten emitter at T = 300 K, 2000 K and 3000 K, where n(T) represents the number of thermions emitted per second by the surface at temperature T. Work function of tungsten is 4.52 eV.

योग

उत्तर

According to Richardson-Dushman equation, the number of thermions (n) emitted by a surface, in a given time (t), is given by

`i= n e =AST^2e^(-phi"/"kT)`

`A'=A/e`

`rArr n = A'ST^2e^(-phi"/"kT)`

Here,

\[\phi = 4 . 52\text{ }e . V = 4 . 52 \times (1 . 6 \times {10}^{- 19} ) J\]

\[k = 1 . 38 \times {10}^{- 23} J/K\]

\[n(1000) = A'S \times (1000 )^2 \times e^{( - 4 . 52 \times 1 . 6 \times {10}^{- 19} )/(1 . 38 \times {10}^{- 23} \times 1000)} \]

\[n(1000) = A'S \times {10}^6 \times 1 . 7396 \times {10}^{- 23} \]

\[n(1000) = A'S \times 1 . 7396 \times {10}^{- 17}\]

\[\frac{n(300K)}{n(1000K)} = \frac{A'S \times (300 )^2 \times e^{( - 4 . 52 \times 1 . 6 \times {10}^{- 19} )/(1 . 38 \times {10}^{- 23} \times 300)}}{A'S \times 1 . 7396 \times {10}^{- 17}}\]

\[\frac{n(300K)}{n(1000K)} = \frac{9 \times {10}^4 \times 1 . 364 \times {10}^{- 76}}{1 . 7396 \times {10}^{- 17}}\]

\[ \frac{n(300K)}{n(1000K)} = 7 . 056 \times {10}^{- 55}\]

\[\frac{n(2000K)}{n(1000K)} = \frac{A'S \times (2000 )^2 \times e^{( - 4 . 52 \times 1 . 6 \times {10}^{- 19} )/(1 . 38 \times {10}^{- 23} \times 2000)}}{A'S \times 1 . 7396 \times {10}^{- 17}}\]

\[\frac{n(2000K)}{n(1000K)} = \frac{4 \times {10}^6 \times (4 . 1712 \times {10}^{- 12} )}{(1 . 7396 \times {10}^{- 17} )}\]

\[ \frac{n(2000K)}{n(1000K)} = 9 . 73 \times {10}^{11}\]

\[\frac{n(3000K)}{n(1000K)} = \frac{A'S \times (3000 )^2 \times e^{( - 4 . 52 \times 1 . 6 \times {10}^{- 19} )/(1 . 38 \times {10}^{- 23} \times 3000)}}{A'S \times 1 . 7396 \times {10}^{- 17}}\]

\[\frac{n(3000K)}{n(1000K)} = \frac{(9 \times {10}^6 ) \times (2 . 5913 \times {10}^{- 8} )}{(1 . 7396 \times {10}^{- 17} )}\]

\[\frac{n(3000K)}{n(1000K)} = 1 . 34 \times {10}^{16}\]

shaalaa.com

Davisson and Germer Experiment

क्या इस प्रश्न या उत्तर में कोई त्रुटि है?

Q 5 Q 4 Q 6

अध्याय 41: Electric Current through Gases - Exercises [पृष्ठ ३५३]

APPEARS IN

एचसी वर्मा Concepts of Physics Volume 1 and 2 [English]

अध्याय 41 Electric Current through Gases
Exercises | Q 5 | पृष्ठ ३५३

Calculate N(T)/N(1000 K) for Tungsten Emitter at T = 300 K, 2000 K and 3000 K, Where N(T) Represents the Number of Thermions Emitted per Second by the Surface at Temperature T.

Advertisements

Advertisements

प्रश्न

Advertisements

उत्तर

APPEARS IN

Select a course

Calculate N(T)/N(1000 K) for Tungsten Emitter at T = 300 K, 2000 K and 3000 K, Where N(T) Represents the Number of Thermions Emitted per Second by the Surface at Temperature T.

Advertisements

Advertisements

प्रश्न

Advertisements

उत्तरShow Solution

APPEARS IN

Select a course

उत्तर