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Waves with a frequency of 2.0 hertz are generated along a string The waves have a wavelength of 0.50 meters The speed of the waves along the string is?
The speed of a wave is calculated by multiplying its frequency by its wavelength. In this case, the speed of the waves along the string would be 1.0 meters per second (2.0 Hz * 0.50 m).
Waves with a frequency of 2.0 hertz are generated along a string. The waves have a wavelength of 0.50 meters. What is the speed of the waves along the string?
The speed of a wave is calculated using the formula v = f * λ, where v is the speed of the wave, f is the frequency, and λ is the wavelength. Plugging in the values given (f = 2.0 Hz, λ = 0.50 m), the speed of the waves along the string is 1.0 m/s.
If a wave has a frequency of 5.0 waves per second and the distance between the peaks of the wave is 20 cm. What is the speed of the wave?
wave velocity = frequency in Hz x wavelength in meterSo frequency = 5 Hz and wavelength = distance between successive peaks = 20 cm = 20/100 mHence wave velocity = 5 * 20/100 = 1 m/s
What is the distance between the center of a condensation and the center of an adjacent rarefaction is 65.23 cm If the frequency is 256.0 Hz how fast are these waves?
The distance between a condensation and a rarefaction in a sound wave is equivalent to half a wavelength. Given the frequency of 256.0 Hz and the distance of 65.23 cm between the centers, we can calculate the speed of the wave using the formula speed = frequency x wavelength. Thus, the speed of the wave would be approximately 33,075.2 cm/s or 330.752 m/s.
Calculate the speed of waves in a puddle that are 0.15 m apart and made by tapping the water surface twice?
To calculate the speed of waves in a puddle, you need to know the time taken between the two taps (t) and the distance between the waves (wavelength, λ). If the tapping creates two waves 0.15 meters apart, this is half the wavelength. If the time between taps is 0.5 seconds, the speed of the waves can be calculated using the equation speed = λ / t.
Waves with a frequency of 2.0 hertz are generated along a string The waves have a wavelength of 0.50 meters The speed of the waves along the string is?
The speed of a wave is calculated by multiplying its frequency by its wavelength. In this case, the speed of the waves along the string would be 1.0 meters per second (2.0 Hz * 0.50 m).
Waves with a frequency of 2.0 hertz are generated along a string. The waves have a wavelength of 0.50 meters. What is the speed of the waves along the string?
The speed of a wave is calculated using the formula v = f * λ, where v is the speed of the wave, f is the frequency, and λ is the wavelength. Plugging in the values given (f = 2.0 Hz, λ = 0.50 m), the speed of the waves along the string is 1.0 m/s.
If a wave has a frequency of 5.0 waves per second and the distance between the peaks of the wave is 20 cm. What is the speed of the wave?
wave velocity = frequency in Hz x wavelength in meterSo frequency = 5 Hz and wavelength = distance between successive peaks = 20 cm = 20/100 mHence wave velocity = 5 * 20/100 = 1 m/s
What is the distance of an ocean wave trough to trough?
That will be wavelength you can figure out the distance by doing this wavelength (m) ---------------------- Wave period (s)=wave speed (m/s)
What happens to the distance in arrival times between P waves and S waves as the distance for the earthquake increases?
As the distance from the earthquake to the seismograph station increases, the time interval between the arrival of P waves and S waves also increases. This is because S waves travel slower than P waves, so the further distance allows more time for the S waves to catch up and be recorded after the P waves.
What is the distance between the center of a condensation and the center of an adjacent rarefaction is 65.23 cm If the frequency is 256.0 Hz how fast are these waves?
The distance between a condensation and a rarefaction in a sound wave is equivalent to half a wavelength. Given the frequency of 256.0 Hz and the distance of 65.23 cm between the centers, we can calculate the speed of the wave using the formula speed = frequency x wavelength. Thus, the speed of the wave would be approximately 33,075.2 cm/s or 330.752 m/s.
What is a seismic wave that travels along the earth's surface?
A seismic wave that travels along the Earth's surface is called a surface wave. These waves tend to cause the most damage during an earthquake because they have a longer wavelength and higher amplitudes compared to other types of seismic waves like body waves.
Calculate the speed of waves in a puddle that are 0.15 m apart and made by tapping the water surface twice?
To calculate the speed of waves in a puddle, you need to know the time taken between the two taps (t) and the distance between the waves (wavelength, λ). If the tapping creates two waves 0.15 meters apart, this is half the wavelength. If the time between taps is 0.5 seconds, the speed of the waves can be calculated using the equation speed = λ / t.
What is the wavelength of sound waves produced by a guitar string vibrating at 440 Hz?
Wavelength = velocity of sound in the medium / frequency Here velocity is not given. Let it be 330 m/s So required wavelength = 330/440 = 3/4 = 0.75 m
How do you prove that speed equals wavelength times frequency?
Frequency is the number of waves per second, i.e. 20Hz is 20 waves per second. Wavelength is obviously the length of each wave i.e 20m So if there are 20 waves per second, the distance it travels is the length of the wave multiplied by the number of waves in one second. The distance travelled in one second by the wave above is therefore 20 * 20m wich is 400m. The distance travelled in 1 second is 400m. Therefore every second, the wave travels 400m and thus the speed is 400meters per second (400m/s).
An ocean wave has a wavelength of 10 meters. These waves pass by a stationary boat every 2.0 seconds. What is the speed of the waves?
The speed of the wave can be calculated using the formula: speed = wavelength / period. In this case, the wavelength is 10 meters and the period is 2.0 seconds. Therefore, the speed of the waves is 5 m/s.
Wavelength is the distance between corresponding points on adjacent waves?
Wavelength is the distance between two sequential points of equal amplitude (same height) and phase of a wave. The waves we see and hear around us are of two forms. S waves are the sort of waves we would see on the surface of water. In these waves the medium (matter through which the waves travel) move back and forth orthogonally (90 degrees) to the direction of travel of the wave. In compression waves like sound waves (called P waves in seismology), the medium moves back and forth in the same direction as the wave travels. The wave length is the distance between two equivalent points in both the amount the medium is moving and the direction. In ocean waves this would be the back of one wave to the back of the next OR from the front of one wave to the front of the next OR from the top of one wave to the top of another
