Exitance is defined as the power per unit area that is emitted from the surface of...

The star Rigel acts like a Blackbody. Its surface temperature is 10,000k A) Calculate the total...

The star Rigel acts like a Blackbody. Its surface temperature is 10,000k A) Calculate the total power per unit area emitted by Rigel B) Calculate the wavelength of peak intensity for Rigel's blackbody spectrum. C) Calculate the energy of a photon of wavelength given in B) above.

1. What is the peak wavelength emitted by a star with a surface temperature of 7070...

1. What is the peak wavelength emitted by a star with a surface temperature of 7070 K? Give your answer in nm (1 nm = 10-9 m), but enter only the numerical part in the box. 2. By how much would a star's temperature need to increase in order for its peak wavelength to decrease from 460 to 360 nm? Your answer will be the change in temperature. Give your answer in K, but enter only the numerical part in...

At a certain location, the solar power per unit area reaching Earth's surface is 200 W/m2,...

At a certain location, the solar power per unit area reaching Earth's surface is 200 W/m2, averaged over a 24-hour day. Part A If the average power requirement in your home is 2.4 kW and you can convert solar power to electric power with 13 % efficiency, how large a collector area will you need to meet all your household energy requirements from solar energy?

This is from Principles of Planetary Climate, Problem 1.13 The thick CO2 atmosphere of Venus is...

This is from Principles of Planetary Climate, Problem 1.13 The thick CO2 atmosphere of Venus is nearly opaque in the infrared, so observations of Venus in the infrared spectrum provide no direct information about the temperature of the ground. However, the atmosphere is nearly transparent to microwave radiation, so the microwave emission of the planet can be used to infer its surface temperature. Indeed, this is how it was inferred in the 1960s that the surface of the planet was...

Assuming the Sun radiates as a blackbody at a temperature of 5800 K, calculate the expected...

Assuming the Sun radiates as a blackbody at a temperature of 5800 K, calculate the expected surface temperature of the Earth, assuming that the Earth also acts as a perfect blackbody. Assume the Earth absorbs an amount of energy proportional to its cross-sectional area, but radiates as a spherical blackbody. If the Earth is in thermal equilibrium with outer space, then the energy received (mostly at visible wavelengths) must equal the amount of energy re- radiated (mostly) in the infrared....

A long 8-cm-diameter steam pipe whose external surface temperature is 90°C passes through some open area...

A long 8-cm-diameter steam pipe whose external surface temperature is 90°C passes through some open area that is not protected against the winds. Determine the rate of heat loss from the pipe per unit of its length when the air is at 1 atm pressure and 7°C and the wind is blowing across the pipe at a velocity of 47 km/h. The properties of air at 1 atm and the film temperature of (Ts + T∞)/2 = (90 + 7)/2...

The interior of a refrigerator has a surface area of 5 m2. It is insulated by...

The interior of a refrigerator has a surface area of 5 m2. It is insulated by a 2.2 cm thick material that has a thermal conductivity of 0.0085 J/m · s ·? C. The ratio of the heat extracted from the interior to the work done by the motor is 7.9% of the theoretical maximum. The temperature of the room is 43.5?C, and the temperature inside the refrigerator is 8.5?C. Determine the power required to run the compressor. Answer in...

Proxima Centauri is a red dwarf, dim and cool. The total radiation power (i.e. radiation energy...

Proxima Centauri is a red dwarf, dim and cool. The total radiation power (i.e. radiation energy emitted per unit time) is 1.7% of that of our Sun. Let the radiation intensity received by the Earth from the Sun be IE. How much is the radiation intensity received by Proxima Centauri b from Proxima Centauri? Express your answer as percentages of IE. Hint: intensity is defined as power per unit surface area, therefore you don’t need to know how large the...

1. Why might a stream of red photons not cause an electron to be emitted from...

1. Why might a stream of red photons not cause an electron to be emitted from a gold surface? A. The stream of red photons might not be hitting the surface with enough total energy per second B. An electron absorbs the energy of one photon, and the red photon has too small of a wavelength to deliver enough energy. C. An electron absorbs the energy of one photon, and the red photon has too small of a frequency to...

In a coal fired power plant, a furnance Wall consists of a 125 mm wide refractory...

In a coal fired power plant, a furnance Wall consists of a 125 mm wide refractory brick and a 125 mm wide insulating firebrick separated by an air gap as shown in figure. The outside Wall is covered with a 12 mm thickness of plaster. The inner surface of Wall is at 1100 °C, and then room temp is 25 °C. The Heat transfer coefficient from the outside Wall surface to air in room is 17 W/m^2 K, resistance to...