Our sun's 5800 K surface temperature gives a peak wavelength in the middle of the visible spectrum.
1. What is the minimum surface temperature for a star whose emission peaks at some wavelength less than
400 nm− that is, in the ultraviolet?
Our sun's 5800 K surface temperature gives a peak wavelength in the middle of the visible...
Construct plots that show the wavelength-dependent energy spectrum of a blackbody at a temperature of 5800 K (approx. temperature of the Sun) using both the Planck distribution and the Raleigh-Jeans distribution. Confirm agreement between the two at long wavelength. a. What is the maximum emission wavelength at this temperature? b. What is the total power output (W/m^2) ? c. Using the Planck distribution, estimate what fraction of the Sun's total power output is emitted in visible wavelengths (400-750 nm)
The Sun's surface is a blackbody with a surface temperature of 5800 K. a) at what wavelength does the sun emit most strongly? b) what is the total radiated power per unit surface area? c) what is the total radiated power over the entire surface?
The surface of the sun has a temperature of approximately 5800 K. To good approximation we can treat it as a blackbody. (a) What is the peak-intensity wavelength λm? (b) What is the total radiated power per unit area? (c) Find the power per unit area radiated from the surface of the sun in the wavelength range 600.0 to 605.0 nm.
A star has a surface temperature of 4,211 K. What is peak wavelength in nm of the light it emits? Give the answer to two significant figures. Use scientific notation, with one digit to the left and one digit to the right of the decimal point.
in a mission, it has accelerated photons that bump with its solar tail. peak wavelength in the sun's spectrum is 501 nm. what is the momentum (in kg m/s) of a photon with a wavelength peak of 501 nm? also using the peak wavelength, what is the surface temperature of the sun?
The hottest ordinary star in our galaxy has a surface temperature of 53,000 K. What is the peak wavelength of its thermal radiation?
7. To eject electrons from the surface of sodium requires photons with a wavelength less than or equal to 535 nm. A. Determine the minimum frequency of light that can eject electrons from [3 points] sodium's surface (in Hz). B. Determine the binding energy of an electron at the surface of sodium (in Joules). [3 points) C. To what region of the electromagnetic spectrum does 535 nm correspond? [2 points) a) near-infrared region b) green part of the visible spectrum...
Number three please The temperature of a student's skin is 33.0 degree C. At what wavelength does the radiation emitted from the skin reach its peak? The radius of our Sun is 6.96 times 10^8 m, and its total power output is 3.85 times 10^26 W. (a) Assuming the Sun's surface emits as a black body, calculate its surface temperature. (b) Using the result of part (a), find lambda_max for the Sun. Calculate the energy in electron volts of a...
2. An O-type star, such as some of the bright young stars in the Orion Nebula, has a surface temperature of roughly 60,000 K. At what wavelength does an O star’s spectrum peak? In what part of the electromagnetic spectrum is this wavelength (e.g. infrared, visible, radio)?
Use a computer to calculate Planck's radiation law for a temperature of 3000 K, which is the temperature of a typical tungsten filament in an incandescent light bulb. Plot the intensity versus wavelength. (a) How much of the power is in the visible region (400-700nm) compared with the ultraviolet and infrared? (b) What is the ratio of the intensity at 400 nm and 700 nm to the wavelength with maximum intensity?