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The speed of light = the frequency X wave length.. therefore:- Frequency = The speed of light (m/s) _______________ wave Length (m) Where the speed of light : 2.9979 x 10^8 (m/s)
A period is a particular length of time, an hour, one week, ten years, four days, etc. Frequency is how often something occurs
For any wave:speed = wavelength x frequency So, you must simply calculate the frequency first (it is 1/period), then multiply that by the wavelength.
The speed of the wave would depend on the tension, the length of the rope, and the mass per length unit.On the other hand, there is a general relation for waves: speed = wavelength x frequency. This doesn't help in this particular case - you need more data.By the way, Hz. is a unit of frequency. Wavelength would be measured in meters.The speed of the wave would depend on the tension, the length of the rope, and the mass per length unit.On the other hand, there is a general relation for waves: speed = wavelength x frequency. This doesn't help in this particular case - you need more data.By the way, Hz. is a unit of frequency. Wavelength would be measured in meters.The speed of the wave would depend on the tension, the length of the rope, and the mass per length unit.On the other hand, there is a general relation for waves: speed = wavelength x frequency. This doesn't help in this particular case - you need more data.By the way, Hz. is a unit of frequency. Wavelength would be measured in meters.The speed of the wave would depend on the tension, the length of the rope, and the mass per length unit.On the other hand, there is a general relation for waves: speed = wavelength x frequency. This doesn't help in this particular case - you need more data.By the way, Hz. is a unit of frequency. Wavelength would be measured in meters.
Frequency is inversely proportional to the wave length, thus saying the shorter the wave length the higher the frequency and vice versa.The frequency is the number of waves within a time period. As the frequency within that time period increases, the number of waves increases, therefore the width of each wave (wavelength) within that time period has to decrease. Therefore:As the wave length increases, the frequency decreasesAs the wave length decreases, the frequency increases
The length of the [wooden] blocks.
Count the number of events occurring during a time period. Then frequency = number of events/length of time period.
The speed of light = the frequency X wave length.. therefore:- Frequency = The speed of light (m/s) _______________ wave Length (m) Where the speed of light : 2.9979 x 10^8 (m/s)
The frequency can't be 30 Mhz 30 Mhz is a ham radio frequency but to calculate the wavelength, devide 300 by the frequency in Mhz that will give you 10 meters (300/ƒ)
A period is a particular length of time, an hour, one week, ten years, four days, etc. Frequency is how often something occurs
For any wave:speed = wavelength x frequency So, you must simply calculate the frequency first (it is 1/period), then multiply that by the wavelength.
The speed of the wave would depend on the tension, the length of the rope, and the mass per length unit.On the other hand, there is a general relation for waves: speed = wavelength x frequency. This doesn't help in this particular case - you need more data.By the way, Hz. is a unit of frequency. Wavelength would be measured in meters.The speed of the wave would depend on the tension, the length of the rope, and the mass per length unit.On the other hand, there is a general relation for waves: speed = wavelength x frequency. This doesn't help in this particular case - you need more data.By the way, Hz. is a unit of frequency. Wavelength would be measured in meters.The speed of the wave would depend on the tension, the length of the rope, and the mass per length unit.On the other hand, there is a general relation for waves: speed = wavelength x frequency. This doesn't help in this particular case - you need more data.By the way, Hz. is a unit of frequency. Wavelength would be measured in meters.The speed of the wave would depend on the tension, the length of the rope, and the mass per length unit.On the other hand, there is a general relation for waves: speed = wavelength x frequency. This doesn't help in this particular case - you need more data.By the way, Hz. is a unit of frequency. Wavelength would be measured in meters.
The frequency of a pendulum varies with the square of the length.
a crystal when cut to specific dimensions will vibrate at a particular frequency when an electric potential is applied across it. The length of the second is standardized by the Cs crystal.
You cannot. Diameter and length can, for some particular shapes, give you the volume. But that will not give you the mass unless you know the density of the substance.
The frequency of a pendulum is inversely proportional to the square root of its length.
The lower the frequency, the larger mass and longer length, The higher the frequency, the smaller the mass, and shorter the length.