## What is the speed of a wave with a frequency of two Hz and a wavelength of 87 m?

What is the speed of a wave with a frequency of 2 Hz and a wavelength of 87 m? O 0.023 m/s.

## What is the peak wavelength?

It states that the higher the temperature, the lower the wavelength λmax for which the radiation curve reaches its maximum. The shift to shorter wavelengths corresponds to photons of higher energies. In other words, λmax (peak wavelength) is inversely proportional to temperature.

## Does wavelength increase with temperature?

By increasing the temperature, the band gap energy decreases and the emitted wavelength increases. It follows that the peak wavelength shifts to longer wavelength and therefore this shift called the red shift.

## How do you find the peak wavelength of blackbody emissions?

For a blackbody radiator, the temperature can be found from the wavelength at which the radiation curve peaks. If the temperature is = C = K, then the wavelength at which the radiation curve peaks is: λpeak = x10^ m = nm = microns….Wien’s Displacement Law.

Region of spectrum Wavelength λ Photon Energy
X-ray <10nm >120 eV

## What is the relation between temperature and wavelength?

The higher the object’s temperature, the faster the molecules will vibrate and the shorter the wavelength will be.

## How do you calculate wavelength when given frequency and temperature?

Solution

1. Identify knowns.
2. Convert the temperature into kelvin and then enter the temperature into the equation vw=(331m/s)√303K273K=348.7m/s.
3. Solve the relationship between speed and wavelength for λ: λ=vwf.
4. Enter the speed and the minimum frequency to give the maximum wavelength: λmax=348.7m/s20Hz=17m.

## How do you find the peak intensity of a wavelength?

If the temperature is = C = K, then on the traditional wavelength plot the wavelength at which the radiation curve peaks is: λpeak= x10^ m = nm = microns. This wavelength corresponds to quantum energy hν = x 10^ eV. corresponding to quantum energy hν = x 10^ eV.

## What is the peak wavelength emitted by a person with this temperature?

Human body temperature is about 310.15ºK . That puts the peak radiation in the infrared range. Human vision can see red light wavelengths as long as about 7,000 Angstroms. The infrared wavelengths are generally defined as being between 7,000 and 1,000,000 Angstroms.

infrared

10-32 meters

## What is the wavelength of human body?

Most of the radiation emitted by human body is in the infrared region, mainly at the wavelength of 12 micron. The wavelength of infrared radiation is between 0.75 to 1000 micron (1 micron = 10-6 metres).