A 2 m² panel of solar cells is installed in Nevada. The efficiency of the solar panel is 16%.

1. Compute the electrical power of the panel at 10:30 AM when the solar power density is 822 W/m².
2. Assume the panel is installed on a geosynchronous satellite. Compute its electrical power output.

Answer :

1. The electrical power of the panel at 10:30 AM is computed by multiplying the solar power density (822 W/m^2) by the panel's area and efficiency (16%). 2. The electrical power output of the panel on a geosynchronous satellite is computed in the same way, considering the constant solar power incident on the panel.

To compute the electrical power of the solar panel at 10:30 AM and on a geosynchronous satellite .

1. Compute the electrical power of the panel at 10:30 AM:

- Determine the area of the solar panel (A) in square meters.

- Calculate the solar power incident on the panel using the solar power density (S) in watts per square meter: P = A * S.

- Multiply the incident solar power by the panel's efficiency (E) as a decimal (16% = 0.16) to obtain the electrical power output: Power = P * E.

2. Compute the electrical power output on a geosynchronous satellite:

- Determine the area of the solar panel (A) in square meters.

- Calculate the solar power incident on the panel using the solar power density (S) in watts per square meter: P = A * S.

- Since a geosynchronous satellite remains stationary with respect to the Earth, it receives constant sunlight. Multiply the incident solar power by the panel's efficiency (E) as a decimal (16% = 0.16) to obtain the electrical power output: Power = P * E.

By following these steps, you can calculate the electrical power output of the solar panel at 10:30 AM and on a geosynchronous satellite based on the provided information.

Learn more about electrical power from the given link: https://brainly.com/question/33340158

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