How can atmospheric electricity be harnessed?

Atmospheric electricity can be harnessed by using a hexacopter to lift one end of a wire high into the air, connected to a corona motor near the ground. This setup allows electricity to flow and make the motor turn, showcasing a practical application of this phenomenon.

What happens to voltage with altitude increase?

With every meter increase in altitude, the voltage rises by approximately 100 volts. Equipotential lines illustrate the voltage distribution between the ground (negative) and sky (positive) up to 50 kilometers, showcasing the relationship between altitude and voltage.

Why doesn't a shock occur despite voltage difference?

Despite the voltage difference between the head and ground due to atmospheric electricity, no shock occurs. This is because the body acts as a conductor, maintaining an effective 0 volts between the head and ground, preventing any harmful electrical discharge.

How does a corona motor work with atmospheric electricity?

The corona motor, powered by atmospheric electricity, utilizes sharp points on the wire to create an electric field. This electric field turns the motor through the repulsion and attraction of charges, demonstrating a practical application of harnessing atmospheric electricity.

What is the practical application of atmospheric electricity?

The practical application of atmospheric electricity is demonstrated through the corona motor, which uses the phenomenon to generate electricity. By lifting a wire high into the air with a hexacopter and connecting it to the corona motor near the ground, electricity flows and turns the motor, showcasing a unique way to harness this natural phenomenon for power generation.

How Powering with Atmospheric Electricity Works

RimstarOrg・2 minutes read

Atmospheric electricity can be used to generate power by using a hexacopter to raise a wire high into the air, connected to a corona motor on the ground, with voltage increasing by 100 volts per meter of altitude and equipotential lines showing voltage distribution up to 50 kilometers. Despite the voltage difference between the head and ground, the body acts as a conductor to prevent shocks, and the corona motor harnesses atmospheric electricity to turn through the repulsion and attraction of charges, showcasing a practical application of this concept.

Insights

Atmospheric electricity can generate significant voltage increases with altitude, showcasing a clear relationship between height and voltage levels.
The corona motor's operation highlights how the electric field created by sharp points on a wire can effectively turn a motor, emphasizing the practical utilization of atmospheric electricity in powering devices.

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Recent questions

How can atmospheric electricity be harnessed?
Atmospheric electricity can be harnessed by using a hexacopter to lift one end of a wire high into the air, connected to a corona motor near the ground. This setup allows electricity to flow and make the motor turn, showcasing a practical application of this phenomenon.
What happens to voltage with altitude increase?
With every meter increase in altitude, the voltage rises by approximately 100 volts. Equipotential lines illustrate the voltage distribution between the ground (negative) and sky (positive) up to 50 kilometers, showcasing the relationship between altitude and voltage.
Why doesn't a shock occur despite voltage difference?
Despite the voltage difference between the head and ground due to atmospheric electricity, no shock occurs. This is because the body acts as a conductor, maintaining an effective 0 volts between the head and ground, preventing any harmful electrical discharge.
How does a corona motor work with atmospheric electricity?
The corona motor, powered by atmospheric electricity, utilizes sharp points on the wire to create an electric field. This electric field turns the motor through the repulsion and attraction of charges, demonstrating a practical application of harnessing atmospheric electricity.
What is the practical application of atmospheric electricity?
The practical application of atmospheric electricity is demonstrated through the corona motor, which uses the phenomenon to generate electricity. By lifting a wire high into the air with a hexacopter and connecting it to the corona motor near the ground, electricity flows and turns the motor, showcasing a unique way to harness this natural phenomenon for power generation.

Summary

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Harnessing Atmospheric Electricity with Hexacopter and Corona Motor

Atmospheric electricity can be harnessed using a hexacopter to lift one end of a wire high into the air, connected to a corona motor near the ground, allowing electricity to flow and make the motor turn.
For every meter increase in altitude, the voltage rises by approximately 100 volts, with equipotential lines illustrating the voltage distribution between the ground (negative) and sky (positive) up to 50 kilometers.
Despite the voltage difference between the head and ground, no shock occurs due to the body acting as a conductor, maintaining an effective 0 volts between the head and ground.
The corona motor, powered by atmospheric electricity, utilizes sharp points on the wire to create an electric field that turns the motor through repulsion and attraction of charges, demonstrating the practical application of this phenomenon.

How Powering with Atmospheric Electricity Works

Insights

Get key ideas from YouTube videos. It’s free

Recent questions

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Summary

Harnessing Atmospheric Electricity with Hexacopter and Corona Motor

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