Questions LLC
Login
or
Sign Up
Ask a New Question
Science
Physics
What is the electromagnetic flux coming from the surface of a 2000K blackbody? (
1 answer
R=σT^4 = 5.67•10^-8•(2000)^4=907200 J/m²•s
You can
ask a new question
or
answer this question
.
Similar Questions
What is the electromagnetic flux coming from the surface of a 2000K blackbody? (You must show your work for full credit
Top answer:
To determine the electromagnetic flux coming from the surface of a blackbody, you can use the
Read more.
What is the electromagnetic flux coming from the surface of a 5000K blackbody?
Top answer:
To calculate the electromagnetic flux coming from the surface of a blackbody, you can use a formula
Read more.
What is the electromagnetic flux coming from the surface of a 5000K blackbody? I am supposed to use maxwells equation.
Top answer:
Maxwell came up with four famous equations, but none of them will tell you the answer. Perhaps your
Read more.
Which of the following statements does not apply to a blackbody?
Group of answer choices A blackbody doesn’t reflect any light
Top answer:
Atoms in a blackbody behave just like isolated atoms
Read more.
The Stephan-Boltzman law allows us to compute
Group of answer choices The amount of energy radiated by a blackbody per square
Top answer:
All of the above options are correct.
Read more.
An electric dipole of dipole moment 20*10^-6c.m. Is enclosed by a closed surface .what is the net flux coming out of the
Top answer:
Where is the answer ? Can anyone tell me?..
Read more.
If the radiant flux from the sun is 1350 W/m2, what would be its equivalent blackbody
temperature?
Top answer:
To calculate the equivalent blackbody temperature, we can use Stefan-Boltzmann Law. The
Read more.
The particles are attracted to the flux leakage and clump round the flaw, making it visible. Magnetic Particle (flux) can be
Top answer:
True
Read more.
What is the total power, or radiant flux, (in megawatts) of a spherical object of temperature 873 K and radius 7 meters, if we
Top answer:
Radiant emittance R Power P Area A=π•r^2 R=P/A Stefan-Boltzmann law R=σ•T^4 Stefan-Boltzmann
Read more.
A blue supergiant star has a radius of 7.4 × 10^10 m. The spherical surface behaves as a blackbody radiator. If the surface
Top answer:
Well, this blue supergiant star sure knows how to bring the heat! Let's calculate the rate at which
Read more.
Related Questions
The amount of radiant power produced by the sun is approximately 3.9 x 1026 W. Assuming the sun to be a perfect blackbody sphere
CO+H2O <--> CO2+H2
kp=0.0611 atm @2000K A reaction mixture initially contains a CO partial pressure of 1334 torr and H2O partial
Wien’s radiation law says that the wavelength of most intense radiation (λmax) emitted by a blackbody is inversely
The electric flux through the surface shown in Figure Ex27.10 is 15.0 Nm2/C, and the electric field makes an angle á = 70°
From the previous data, what electric field (in ) over the gradient zone of would be required to compensate the electron
The net electric flux through a Gaussian surface is −680 N · m2/C. What is the net charge of the source inside the surface?
nC
The amount of radiant power produced by the sun is approximately 3.9 × 1026 W. Assuming the sun to be a perfect blackbody
Use the Divergence Theorem to calculate the surface integral
S F · dS; that is, calculate the flux of F across S. F(x, y, z) =
Which qualities of the ocean help it to absorb heat? Select the three correct answers.(2 points) Responses large surface area
A cubical Gaussian surface surrounds three positive charges, each has a charge q1 = +4.00 × 10-12 C, and two negative charges,