The surface of the Sun (photosphere) is hotter than the air in the vicinity of a lightning strike. The temperature of the photosphere can reach about 5,500 degrees Celsius, while the air around a lightning strike can reach temperatures around 30,000 degrees Celsius.
Yes, when lightning strikes, it heats up the surrounding air so rapidly that the air expands quickly, creating a shock wave that we hear as thunder. This transfer of energy from the lightning bolt to the air is what causes the thunder sound that we hear after seeing a lightning strike.
because the air in the sky is cold so it can make lightning.
Yes, thunder is caused by the quick expansion and then contraction of air along the path of a lightning strike. When lightning heats the air, it expands rapidly, creating a shock wave that we hear as thunder.
Yes, though there are not atoms specific to lightning. Lightning is an electrical discharge through air. The discharge itself does not contain atoms, but the lighting bolt, the channel of plasma through which the discharge moves, does. It consists of the atoms and molecules of air that have been ionized.
lightning is more powerful than air
a lightning form when cold air mass pushes warm air mass up because of this hard reaction it forms lightning. this is called cold air mass.
No. Lightning produces a shockwave in the air, which we call thunder.
lightning
No. Lightning is an electric current flowing through ionized air.
Lightning is an electrical discharge through air. This discharge causes the air around the lightning bolt to violently heat (hotter than the suface of the sun) and expand; the air then quickly cools and contracts. This causes the audible crack or rumble of thunder (depending on your distance from the lightning).
The surface of the Sun (photosphere) is hotter than the air in the vicinity of a lightning strike. The temperature of the photosphere can reach about 5,500 degrees Celsius, while the air around a lightning strike can reach temperatures around 30,000 degrees Celsius.
Yes, when lightning strikes, it heats up the surrounding air so rapidly that the air expands quickly, creating a shock wave that we hear as thunder. This transfer of energy from the lightning bolt to the air is what causes the thunder sound that we hear after seeing a lightning strike.
thunder comes after the lightning. so, the lightning is related to how thunders are form. when lightning strikes, it warms the air surrounded to it. then, when the hot air meets and crash with each other, they make a noise.
lightning
because the air in the sky is cold so it can make lightning.
Lightning heats the surrounding air to extremely high temperatures of around 30,000 degrees Celsius, causing the air to rapidly expand and create a shockwave that we hear as thunder. This rapid expansion and contraction of the air molecules create the characteristic sound of thunder following a lightning strike.