The temperature of a furnace is 827^@C. ...

The temperature of a furnace is `827^@C`. At which wavelength will it radiate maximum energy?

Text Solution

AI Generated Solution

To find the wavelength at which the furnace radiates maximum energy, we will use Wien's Displacement Law. Here’s a step-by-step solution: ### Step 1: Convert the Temperature to Kelvin The temperature given is in Celsius (°C). We need to convert it to Kelvin (K) using the formula: \[ T(K) = T(°C) + 273.15 \] For the given temperature of \(827°C\): ...

Topper's Solved these Questions

THERMAL PROPERTIES OF MATTER
MODERN PUBLICATION|Exercise COMPETITION FILE (OBJECTIVE TYPE QUESTION ((A) MULTIPLE CHOICE QUESTION WITH ONLY ONE CORRECT ANSWER))|20 Videos
THERMAL PROPERTIES OF MATTER
MODERN PUBLICATION|Exercise COMPETITION FILE (OBJECTIVE TYPE QUESTION ((B) MULTIPLE CHOICE QUESTION FROM CPMPETITIVE EXAMINATION ) AIMPMT/NEET AND OTHER STATE BOARDS FOR MEDICAL ENTRANCE)|18 Videos
THERMAL PROPERTIES OF MATTER
MODERN PUBLICATION|Exercise REVISION EXERCISE (LONG ANSWER QUESTION)|5 Videos
SYSTEMS OF PARTICLES AND ROTATIONAL MOTION
MODERN PUBLICATION|Exercise Chapter Practice Test (for Board Examination)|16 Videos
UNITS AND MEASUREMENT
MODERN PUBLICATION|Exercise CHAPTER PRACTICE TEST|15 Videos

Similar Questions

Explore conceptually related problems

The surface temperature of a hot body is 1227^(@)C . Find the wavelength at which it radiates maximum energy. Given Wien's constant = 2898 cm K .

A hot body has a surface temperature of 1345^@C . Calculate the wavelength at which it radiates maximum energy . Take . Wein,s constant = 0.2898 cm K

The surface temperature of the hot body is 1127^(@)C find the wavelenght at which it radiates maximum energy. Given Wien's constant = 0.2898 cm K. To which spectrum region this wavelength belongs?

The temperature of a furnace is 2227^(@)C and the intensity is maximum in its spectrum nearly at 12000 A^(@) If the intensity in the spectrum of star is maximum nearly at 48000 A^(@) then the surface temperature of the star is .

A black body radiates power P and maximum energy is radiated by it at a wavelength lamda_(0) . The temperature of the black body is now so changed that it radiates maximum energy at the wavelength (3lamda_(0))/4 . What is the power radiated by it at the new temperature ?

The temperature of a furnace is 2327^(@)C and the intensity is maximum in its radiation spectrum at 12000Å. If the intensity in the spectrum of a star is maximum at 4800Å, then the surface temperature of the star is

A black body radiated maximum energy around a particular wavelength at a given temperature. If the temperature of the black body is now changed so that it radiates maximum energy around a wavelength n time the original wavelength (n lt 1) then power radiate by it will increases by a factor of:

MODERN PUBLICATION-THERMAL PROPERTIES OF MATTER-REVISION EXERCISE (NUMERICAL PROBLEM)

At what temperature will both the Celsius and Fahrenheit scales read t...
Text Solution
|
The air pressure in the thermometer bulb at constant volume is 70 cm o...
Text Solution
|
A thermometer is first dipped in water and then taken to a warm liquid...
Text Solution
|
A metal block is heated through 10^@C till the volume of it changes ...
Text Solution
|
The driver of an automobile gets his steel gasoline tank filled with 5...
Text Solution
|
By how much amount should the temperature of a steel rod be increased ...
Text Solution
|
At 0^@C a thermally isolated container has 200 g of water. When air a...
Text Solution
|
500 gms of water is to be cooled from 3.5^@C to 20^@C . How many grams...
Text Solution
|
What is calorific value of petroleum if 0.25 g of petroleum is burnt i...
Text Solution
|
A wooden box having dimensions 80 cm x 60 cm x 30 cm and thickness 3 c...
Text Solution
|
What will be the difference in temperatures between two sides of a met...
Text Solution
|
A long metallic bar of length 0.5 m is placed in such a way that its o...
Text Solution
|
A body cools from 40^@C to 30^@C in 5 minutes and to 26^@C in next 3 m...
Text Solution
|
Water placed in a container cools from 80^@C to 70^@C in 5 minutes. H...
Text Solution
|
What will be the surface area of a filament of 200 W incandescent lamp...
Text Solution
|
By which factor the radiation emitted by a body will increase if the t...
Text Solution
|
A metallic ball of surface area 300 cm^2 at a temperature of 227^@C ...
Text Solution
|
The wavelength of maximum energy distribution by a star A is 4500 Å at...
Text Solution
|
The temperature of a furnace is 827^@C. At which wavelength will it ra...
Text Solution
|