A newton is a unit of force, a meter is a unit of length. The unit newton / meter is used as the unit for the string constant - a string reacts with more force if it is stretched more.
A newton is a unit of force, a meter is a unit of length. The unit newton / meter is used as the unit for the string constant - a string reacts with more force if it is stretched more.
A newton is a unit of force, a meter is a unit of length. The unit newton / meter is used as the unit for the string constant - a string reacts with more force if it is stretched more.
A newton is a unit of force, a meter is a unit of length. The unit newton / meter is used as the unit for the string constant - a string reacts with more force if it is stretched more.
Answer 1:
The question, as stated, cannot be answered sensibly. A metre is a measure of distance, with dimensions [L]. A Hertz is a measure of frequency, with dimensions [T-1]. The two measure different things and basic dimensional analysis teaches that you cannot convert between measures with different dimensions such as these without additional information.
Answer 2:
1 light hertz = 299,792,458 metres per second
Thus 1 Hz of light spans across ~299,792,458 metres within a second, presumably within a vacuum.
The distance of 1 auditory Hz varies depending upon the density of the medium that it is transmitted throughout, along with the medium's temperature, composition (such as the salinity percentage or parts per million within in a liquid medium such as the ocean), and pressure. With auditory Hz one also has to account for signal scattering, propagation loss, etcetera.
1 spectral cycle per second = unit(s) of a squared (2D) spacial measurement multiplied by unit(s) of temporal measurement.
OR
1 spectral cycle per second = unit of a cubic (3D) spacial measurement multiplied by unit of temporal measurement
temporal dimension bravo = spacial dimension (or cubic size in yoctometers) multiplied by cycles per second (or yHz yoctoHertz) multiplied by temporal dimension alpha to the power of 2 (or ys: yoctoseconds squared) . (This is a very stripped down equation)
A cubic metre is a measurement of a 3 dimensional spacial volume... although light tends to be thought of as only traveling within 2 dimensions when measured. The observed electromagnetic spectrum consists of Gamma Rays (0.1 nano metres) to Radio Waves which can be as long as the universe provided that its path is free from inertial dampening. The light spectrum typically visible to the naked human eye is between 700 nano metres and 400 nano metres.
A hertz is the unit of frequency; one hertz has a periodic interval of one second, 60 hertz has a periodic interval of 1/60 second, etc.
Meters per second is a measure of velocity, not frequency intervals.
A newton is a unit of force, a meter is a unit of length. The unit newton / meter is used as the unit for the string constant - a string reacts with more force if it is stretched more.
Not compatible units.
16.6666666
The meters cancel, so you get "per second", or "1/second". That unit has the special name hertz. It is a unit of frequency.
A wave travels an average distance of 1 meter in 1 second with a frequency of 1 hertz Its amplitude is that there is not enough information to say. A 60 vibration per second wave travels 30 meters in 1 second, its frequency is 60 hertz and it travels 30 meters per second.
You see, that is difficult to say for it can be measured in hertz or waves per second.(please improve this if I'm wrong but I think 10 hertz= 10 waves per second)
340.29 meters per second at sea level.
Well, first we see Arithmetic transmuted into Algebra. Algebra gives the Relation - accompanied by the inseparable Units: f (Frequency in cycles per second) = c (the Speed of Light at 297,000 km/s) divided by lambda (in meters per cycle) - Problem: f = 600,000 hertz or cycles per second; c = 297,000 kilometers per second; and the Lambda wavelength in meters per cycle - peak to peak - is: Lambda = 297,000,000 meters per second divided by 600,000 cycles per second is 2,970/6 meters per Wave.
The meters cancel, so you get "per second", or "1/second". That unit has the special name hertz. It is a unit of frequency.
(The speed of the wave in meters per second) x (second) is.
(4 meters) x (3 per second) = 12 meters per second
331/20 = 16.55 meters.And by the way ... The hertz is not 20. The 'frequency' is 20 hertz.
cycles per second = hertz, so the answer is 100.
The equation to use in this case is:speed (of the wave) = wavelength x frequency If the frequency is in hertz, and the wavelength is in meters, the speed will be in meters/second.
-30
Frequency is a measurement of how many cycles, or wave crests, there are per second. It is measured in Hertz, equal to cycles/second.Frequency is a measurement of how many cycles, or wave crests, there are per second. It is measured in Hertz, equal to cycles/second.Frequency is a measurement of how many cycles, or wave crests, there are per second. It is measured in Hertz, equal to cycles/second.Frequency is a measurement of how many cycles, or wave crests, there are per second. It is measured in Hertz, equal to cycles/second.
Another name for Hertz is cycles per second. So a Megahertz is 1 million cycles per second.
the number of hertz = count per second
A second is a length of time, while a hertz is a unit of frequency, so you can have as many hertz in a second as you want. therefore it depends on what frequency you are talking about, as you can have hundreds of thousands of hertz per second.
A wave travels an average distance of 1 meter in 1 second with a frequency of 1 hertz Its amplitude is that there is not enough information to say. A 60 vibration per second wave travels 30 meters in 1 second, its frequency is 60 hertz and it travels 30 meters per second.