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What would the frequency of the wave be if you counted 10 crests in 5s?
If 10 crests pass you in 5 seconds, then they're sailing by at the rate of 2 crests per second. That's a frequency of 2 cycles per second which, after conversion of units, is equivalent to 2 Hz.
How is pitch and frequency related?
Pitch is basically frequency... High Frequency = High Pitch Low Frequency = Low Pitch Definitions Frequency: The number of waves that pass a unit of time(like seconds,minutes,hours,and etc.) Pitch: The highness or lowness of a sound 5th Grade Stuff.... ^_^ =D
1 Create a following distance greater than 3 seconds ahead when?
When a driver behind you is trying to pass.
A train 240m long passed a pole in 24 seconds How long will it take to pass a platform 650m long?
240m-24s 10m-1s 650m-65s Answer is 65
How do you find out how many seconds of following distance space you have?
Use a landmark along the side of the road. As the car in front of you passes it start counting. When you pass the same landmark stop counting. The number you reach will be the number of seconds (provided you counted at the rate of 1 number per second.)
What is the frequency of the waves if 30 crests pass a dock in 5 seconds?
The frequency of the waves would be 6 Hz. This is calculated by dividing the number of crests (30) by the time it took for them to pass (5 seconds).
What is the frequency of a wave if 3 crests pass in 6 seconds?
The frequency of the wave is 0.5 Hz. This is calculated by dividing the number of crests (3) by the time it takes for them to pass (6 seconds).
What would the frequency of the wave be if you counted 10 crests in 5s?
If 10 crests pass you in 5 seconds, then they're sailing by at the rate of 2 crests per second. That's a frequency of 2 cycles per second which, after conversion of units, is equivalent to 2 Hz.
You notice a wave crest pass You count another 10 wave crests in the next 15 seconds What is the frequency of these waves?
The frequency of the waves is 0.67 Hz. This is calculated by dividing the number of wave crests (10) by the time taken (15 seconds).
As you sit on a dock you notice a wave crest pass You count another 10 wave crests in the next 15 seconds What is the frequency of these waves?
The frequency of the waves is 0.67 Hz. This is calculated by dividing the number of wave crests (10) by the time taken (15 seconds).
As you sit on a dock you notice a wave crest pass You count another 16 wave crests in the next eight seconds?
The frequency of the waves passing you is 2 Hz (2 cycles in 1 second) since you counted 16 wave crests in 8 seconds.
As you sit on a dock you notice a wave crest pass You count another four wave crests in the next 12 seconds What is the frequency of these waves?
16 wave crests in 8 seconds is the same as 2 per second. 2 is the frequency - 2 Hertz, to be precise.16 wave crests in 8 seconds is the same as 2 per second. 2 is the frequency - 2 Hertz, to be precise.16 wave crests in 8 seconds is the same as 2 per second. 2 is the frequency - 2 Hertz, to be precise.16 wave crests in 8 seconds is the same as 2 per second. 2 is the frequency - 2 Hertz, to be precise.
What is the number of crests and troughs that pass a point per second?
That is twice the frequency. Frequency is equal to the number of complete cycles which pass a point per second.
What is the frequency of these waves As you sit on a dock you notice a wave crest pass. You count another four wave crests in the next 12 seconds?
20 waves per minute. (or 1 every 3 seconds)
The time it takes two successive crests of an ocean wave to pass a given point is called a .?
The time it takes two successive crests of an ocean wave to pass a given point is called a wave period. It is typically measured in seconds and is inversely related to the wave frequency.
What is the number of wave crests that pass by a given point every second called?
Frequency
What is the period of a wave if 20 crests pass an observer in 4 seconds?
The period of a wave is the time it takes for one complete cycle to pass a fixed point. If 20 crests pass an observer in 4 seconds, then the period of the wave is the time it takes for one crest to pass, which is 4 seconds divided by 20, giving a period of 0.2 seconds.
