no. Air is just a medium for energy transfer.
- ANIMESH SINGH GAUTAM
When lightning strikes, it generates a rapid discharge of electrical energy, which heats the surrounding air to extremely high temperatures, causing it to expand explosively. This rapid expansion creates a shockwave that travels through the air, producing the sound we hear as thunder. The light from the lightning is visible almost instantly, while the sound of thunder takes longer to reach us due to the difference in the speed of light and sound. Thus, the light and sound from a lightning strike occur simultaneously, but we perceive them at different times.
Lightning does indeed strike first, as thunder is the sound created by lightning. According to Wikipedia, lightning heats the air surrounding it by large quantities, which in turn causes the air to expand and create a "Sonic wave" which is similar to a sonic boom.
When lightning strikes in a cloud, it creates a path of ionized air, allowing the negative charges in the cloud to flow to the positively charged ground. This discharge of electricity neutralizes the charge separation between the cloud and the ground, resulting in the visible lightning strike and thunder.
When lightning strikes with no thunder, it is called heat lightning. This phenomenon occurs when lightning is too far away for the sound to be heard but the light can still be seen. Heat lightning is typically observed on hot summer nights.
Lightning strikes most frequently in tropical regions near the equator, such as Central Africa, Southeast Asia, and Central America. These areas have warm, moist air that creates ideal conditions for thunderstorms and lightning. Additionally, some regions in the United States, like Florida and the Gulf Coast, also experience a high frequency of lightning strikes.
thunder cannot be prevented thunder forms after lightning strikes when lightning strikes it opens up a hole in the air called channels after lightning strikes air collapsed back in causing soundwaves that we here called thunder
thunder cannot be prevented thunder forms after lightning strikes when lightning strikes it opens up a hole in the air called channels after lightning strikes air collapsed back in causing soundwaves that we here called thunder
when lightning strikes it opens up a bit of air called channel after lightning strikes air collapsed back in and create soundwaves called thunder
Thunder is produced by the rapid expansion and contraction of air surrounding the lightning strike, causing the air to vibrate and create sound waves which we hear as thunder. Thunder is essentially the sound produced by the intense heat and energy from a lightning strike rapidly heating and expanding the air.
When lightning strikes, it discharges a massive amount of electrical energy. This discharge creates a visible flash of light and heat, as well as a loud thundering sound due to the rapid expansion and contraction of air.
It turns purple!
When the golfer strikes the ball, the energy from his swing is transferred to the club. The club then transfers this energy to the ball upon impact, sending it flying through the air. The speed and distance the ball travels depends on the amount of energy transferred from the golfer to the club to the ball.
Lightning strikes occur when electrical charges build up in clouds and on the ground. When the difference in charges becomes strong enough, a channel of ionized air forms, creating a path for the electrical discharge to travel. The lightning bolt then strikes from the cloud to the ground or between clouds, releasing a powerful burst of energy in the form of light and heat.
when lightning strikes it opens up a hole in the air called channel then after lightning strike air collapsed back in creating soundwaves called thunder
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.
When lightning strikes, it generates a rapid discharge of electrical energy, which heats the surrounding air to extremely high temperatures, causing it to expand explosively. This rapid expansion creates a shockwave that travels through the air, producing the sound we hear as thunder. The light from the lightning is visible almost instantly, while the sound of thunder takes longer to reach us due to the difference in the speed of light and sound. Thus, the light and sound from a lightning strike occur simultaneously, but we perceive them at different times.
A catenary lightning protection system typically consists of three basic components: the grounding system, which safely dissipates lightning energy into the earth; the air terminals (or lightning rods), which capture the lightning strike; and the bonding conductors, which connect the air terminals to the grounding system, ensuring a low-resistance path for the lightning current. This configuration helps protect structures and equipment from the damaging effects of lightning strikes.