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What is the approximate distance of a thunder storm if you notice a three-second delay between the flash of lightning and the sound of the thunder?
The approximate distance of a thunderstorm can be calculated by taking the time delay between the flash of lightning and the sound of thunder (3 seconds in this case) and dividing it by 5. Each second of delay roughly corresponds to 1 mile of distance, so a 3-second delay would indicate the thunderstorm is approximately 0.6 miles away.
What happen to the sky before a thunderstorm?
clouds will form from precipitation of all the water that was on the ground, rising into the air, but you can't see it. then all the clouds are full of water and when it's too full, it starts to rain
What is the effect of distance from an object on parallax angles?
The parallax should get smaller and harder to notice although in astronomy there are techniques used to find the parallax of stars by using the Earth's position around the sun to find the distance of the stars.
Can a change of a gibbous moon be detected between moonrise and moonset time?
The phase of the moon is constantly changing. If you examined it very carefully you would notice a difference between moonrise and moonset.
When you moved the slides in different directions what changes in the image of the specimen under focus did you notice?
You should notice that the image in the microscope moves in the opposite direction to the movement of the slide. For example, if the specimen slide is moved top to bottom, the image seen moves from bottom to top. This can be very confusing.
What is the approximate distance of the thunderstorm if you notice a three-second delay between the flash of lightning and the sound of the thunder?
The approximate distance of the thunderstorm is about 1 kilometer away for each 3-second delay between the lightning flash and the thunder sound. So, if you notice a three-second delay, the storm is roughly 1 kilometer away from you.
What is the approximate distance of a thunder storm if you notice a three-second delay between the flash of lightning and the sound of the thunder?
The approximate distance of a thunderstorm can be calculated by taking the time delay between the flash of lightning and the sound of thunder (3 seconds in this case) and dividing it by 5. Each second of delay roughly corresponds to 1 mile of distance, so a 3-second delay would indicate the thunderstorm is approximately 0.6 miles away.
What is the approximte distance of a thunderstorm if you notice a three-second delay between the flash of lighting and the sound of the thunder?
The approximate distance of a thunderstorm can be calculated by counting the number of seconds between the flash of lightning and the sound of thunder and dividing by 5. Since sound travels at about 1,100 feet per second, a three-second delay indicates the thunderstorm is approximately 2,200 feet away, or about 0.42 miles.
What is the approximate distance of a thunderstorm if you notice a three-second delay between the flash of lightning and the sound of the thunder?
Using the average speed of sound in air (343 m/sec or about 1125 ft/sec), the distance would be 1029 meters (3376 ft.). *The English value used is 1000 feet per second, although 1100 feet per second is a better approximation. Note also, that the speed of sound varies with the density of air, which depends on temperature and altitude.
What are the typical warning signs that many people might notice before a thunderstorm?
severe thunderstorm warning or significant weather alert
Which is a common first indicator of a approaching thunderstorm?
A common first indicator of an approaching thunderstorm is a darkening sky or a shift in the color of the clouds to a dark gray or greenish color. Wind speeds may also increase, and you may notice distant rumbles of thunder or see lightning flashes in the distance.
Are the changes in the distance between Earth and the sun important in causing the cycle of the seasons?
No because it is such a little distance it is not going to affect the climate, you would not even notice.
If you notice that the number of waves that go past increases you also find that the distance between each crest?
If the number of waves passing by per unit time increases, the distance between each crest will decrease. This is because the frequency of the waves is directly related to the distance between the crests - as the frequency or number of waves increases, the distance between each crest decreases.
What is the difference between notice to vacate and notice of eviction?
what is the diffrence between a notice to vacate and a eviction
If you follow a guy will he notice?
Depends on how long you follow him and at what distance, but eventually he will definitely notice.
How do you find the distance between -7 and -1?
-6
Why is it that you can't notice the Earth's roundness?
If you can see the horizon in the distance (like on a ship) you can notice the curvature of the earth. It's harder to notice when buildings and hills are in the way.
