Thunder and lightning are closely related natural phenomena that occur during a thunderstorm. Lightning is a sudden electrostatic discharge that happens when electrical charges build up in the atmosphere, while thunder is the sound produced by the rapid expansion of air around the lightning bolt. In simple terms, lightning causes thunder due to the intense heat and energy it releases, creating a shockwave that produces the booming sound we hear.
The time it takes to hear thunder after lightning strikes is typically about 5 seconds for every mile of distance between you and the lightning.
Thunder is heard after lightning is seen because lightning produces a rapid expansion of air, creating shock waves that we hear as thunder.
The relationship between lightning and temperature is that lightning is more likely to occur in warmer temperatures. This is because warm air rises and creates unstable atmospheric conditions, which can lead to the formation of thunderstorms and lightning.
Lightning is a visible discharge of electricity that occurs within a thunderstorm, usually from cloud to ground or within a cloud. Thunder is the sound caused by the rapid expansion of air surrounding a lightning bolt, due to the intense heat generated by the lightning. In essence, lightning is the visible discharge of electricity, while thunder is the sound produced by the rapid expansion of air.
To determine the distance of lightning, count the number of seconds between seeing the lightning and hearing the thunder, then divide by 5 to get the distance in miles.
There is no relationship between thunder and lightning and earthquakes.
Thunder - is the result of a lightning flash. The flash causes the surrounding air to move away from the source at 300 metres/second. An approximate calculation for the relationship between the lightning flash to hearing the thunder, is 5 seconds per mile.
There is a delay between seeing the lightning and hearing the thunder because the speed of light (lightning) is much faster than the speed of sound (thunder). Thus, you SEE lightning first, and then you HEAR thunder later.
A thunder lightning outcome refers to the simultaneous occurrence of thunder and lightning during a thunderstorm. The thunder is the sound produced by the rapid expansion of heated air surrounding a lightning bolt, while the lightning is the visible discharge of electricity between clouds or between a cloud and the ground. A thunder lightning outcome is a common occurrence during thunderstorms.
This concept is based on a scientific principle rather than a theory or law. It is known as the relationship between lightning and thunder, where the sound of thunder follows the flash of lightning due to the rapid expansion and contraction of air molecules caused by the intense heat of the lightning.
Heat lightning is a term used to describe lightning that can be seen from a distance without hearing thunder. It is usually from a distant storm and is not directly associated with the thunderstorm you are observing. Regular lightning produces thunder because it is closer to you, and the sound of thunder travels slower than light, causing a delay between the flash of lightning and the sound of thunder.
Thunder is our name for the sound made by lightning. The reason there is (usually) a delay between when you see the bolt of lightning and hear the thunder is that light travels more quickly than does sound. This is the reason that you can count seconds between seeing lightning and hearing thunder to figure out how close the lightning is to you. When the lightning is closer to you, the sound doesn't take as much time to travel to your ears and thus the gap between the lightning and thunder is shorter. So you can't see thunder because it's merely a sound - but you can see the source of that sound.
You hear thunder after seeing lightning because lightning produces intense heat that causes the air to rapidly expand and create a shock wave. This shock wave is what we hear as thunder. The distance between you and the lightning strike can affect the time gap between seeing the lightning and hearing the thunder.
If there are many seconds between the flash of lightning and the roar of thunder, it indicates that the storm is far away. Each second of delay between seeing the lightning and hearing the thunder represents a distance of about 1 mile between you and the lightning strike.
The time it takes to hear thunder after lightning strikes is typically about 5 seconds for every mile of distance between you and the lightning.
The delay between the lightning and the sound of thunder is due to the difference in speed between light and sound. Light travels much faster than sound, so we see the lightning first before hearing the thunder. By counting the seconds between seeing the lightning and hearing the thunder, you can estimate how far away the lightning struck.
thunder is the sound of lightning if that is what you are asking