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.
To determine the distance of lightning, count the seconds between seeing the lightning and hearing the thunder. Divide this number by 5 to estimate the distance in miles.
Lightning can vary in size, but on average it is about one inch in diameter. Factors that determine the size of lightning include the amount of electrical charge in the cloud, the distance the lightning travels, and the atmospheric conditions.
To determine how far away lightning is, count the seconds between seeing the lightning and hearing the thunder. Divide this number by 5 to estimate the distance in miles.
A bolt of lightning is about the width of a human thumb, which is roughly 1 inch. The factors that determine the width of a bolt of lightning include the amount of electrical charge, the distance it travels, and the atmospheric conditions.
A lightning bolt can be as wide as 1 inch to several inches. The width of a lightning bolt is determined by factors such as the amount of electrical charge, the distance it travels, and the atmospheric conditions.
To determine the distance of lightning, count the seconds between seeing the lightning and hearing the thunder. Divide this number by 5 to estimate the distance in miles.
Lightning can vary in size, but on average it is about one inch in diameter. Factors that determine the size of lightning include the amount of electrical charge in the cloud, the distance the lightning travels, and the atmospheric conditions.
To determine how far away lightning is, count the seconds between seeing the lightning and hearing the thunder. Divide this number by 5 to estimate the distance in miles.
A bolt of lightning is about the width of a human thumb, which is roughly 1 inch. The factors that determine the width of a bolt of lightning include the amount of electrical charge, the distance it travels, and the atmospheric conditions.
A lightning bolt can be as wide as 1 inch to several inches. The width of a lightning bolt is determined by factors such as the amount of electrical charge, the distance it travels, and the atmospheric conditions.
A lightning bolt is about the width of a human thumb, typically around 1 inch (2.5 centimeters) thick. The factors that determine the width of a lightning bolt include the amount of electrical charge, the distance it travels, and the conductivity of the air it passes through.
To determine the distance of a storm from your location, you can use the "flash-to-bang" method. Count the seconds between seeing a lightning flash and hearing the thunder. Divide this number by 5 to get the distance in miles. For example, if you count 10 seconds between the flash and the thunder, the storm is approximately 2 miles away.
You can determine how far away lightning is by counting the seconds between seeing the lightning and hearing the thunder, and then dividing by 5 to get the distance in miles or by 3 to get the distance in kilometers. Sound travels at a speed of about 1 kilometer per 3 seconds or 1 mile per 5 seconds.
To determine the wavelength from a graph, you can measure the distance between two consecutive peaks or troughs on the graph. This distance represents one full wavelength.
To determine the distance of the lightning strike, we use the formula Distance = Speed x Time. Given the speed of sound is 348 m/s and the time taken for thunder to be heard is 4.4 seconds, we can calculate the distance. Distance = 348 m/s x 4.4 s = 1531.2 meters. Therefore, the lightning strike was approximately 1531.2 meters away.
By listening for the thunder. When you see a prominent lightning strike, start counting "one thousand one, one thousand two", etc. Each of those is about one second. There are five seconds in every mile (sound travels 1/5th of a mile per second). If you count to fifteen, the lightning strike is three miles away. Lightning and thunder occur at the same instant when the lightning strike is very close to you, and the thunder will sound more like a cymbal crash.
To determine acceleration when given time and distance, you can use the formula: acceleration 2 (distance / time2). This formula calculates acceleration based on the distance traveled and the time taken to travel that distance.