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What is the difference between a self-luminous and an externally luminous object in physics?
In physics, a self-luminous object is one that produces its own light, such as the sun or a light bulb. These objects emit light due to internal processes, such as nuclear fusion or electrical excitation. On the other hand, an externally luminous object is one that reflects light from another source, such as the moon or a mirror. These objects do not produce their own light but appear illuminated due to the light they reflect from another source.
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What is the difference between luminous flux and high voltage?
Luminous flux is the measure of the total amount of visible light emitted by a light source, measured in lumens. It represents the brightness of the light emitted. On the other hand, high voltage refers to the electrical potential difference between two points in a circuit, measured in volts. High voltage is used to transmit electricity over long distances and is typically found in power lines and electrical systems. In summary, luminous flux measures the brightness of light, while high voltage measures the electrical potential difference in a circuit.
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What is the difference between a convection heater and a radiant heater?
A convection heater works by heating the air in a room, which then circulates to warm up the entire space. It is effective for heating larger areas and is often quieter than radiant heaters. On the other hand, a radiant heater emits infrared radiation that directly heats objects and people in its path, rather than the air. This makes radiant heaters more suitable for spot heating or for providing instant warmth in a specific area.
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What is the difference between the luminosity and the radiant power of the sun?
The luminosity of the sun refers to the total amount of energy it emits in all directions, while the radiant power of the sun refers to the amount of energy it emits in a specific direction. In other words, luminosity is the total energy output of the sun, while radiant power is the energy output in a particular direction. Luminosity is an intrinsic property of the sun, while radiant power depends on the distance from the sun and the angle of observation.
Similar search terms for Difference:
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What is the difference between a self-luminous object and an externally illuminated object in physics?
In physics, a self-luminous object is one that emits its own light, such as the sun or a light bulb. These objects generate their own light through processes like nuclear fusion or electrical excitation. On the other hand, an externally illuminated object is one that reflects light from another source, such as the moon or a book. These objects do not produce their own light but instead reflect light from a separate source.
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What is the difference between infrared heaters and radiant heaters, and which one is better?
Infrared heaters and radiant heaters both use electromagnetic radiation to heat objects and people directly, rather than heating the air. The main difference is that infrared heaters use infrared light to produce heat, while radiant heaters can use various forms of electromagnetic radiation such as visible light or microwaves. In terms of which one is better, it depends on the specific needs and preferences of the user. Infrared heaters are often more energy efficient and provide more targeted heating, while radiant heaters can offer a wider range of heating options and may be more suitable for certain applications.
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Why do stars twinkle?
Stars twinkle because of the Earth's atmosphere. When starlight enters the Earth's atmosphere, it passes through layers of varying temperature and density, causing the light to refract or bend. This bending of light creates the twinkling effect that we see from the ground. The movement of air pockets in the atmosphere constantly changes the path of the starlight, leading to the twinkling appearance of stars.
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How do stars twinkle?
Stars appear to twinkle because of the Earth's atmosphere. As the light from a star passes through the atmosphere, it is refracted or bent in different directions by the varying density of the air. This causes the apparent position of the star to shift slightly, creating the twinkling effect. The twinkling is more noticeable when the star is low on the horizon, as the light has to pass through a greater thickness of atmosphere.
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