Wavelength is a measure of distance not area. It is the distance traveled by a signal from a Zero state to a Plus One state back through Zero to Minus One and returning to Zero.
Speed = (wavelength) times (frequency) = (wavelength) divided by (period) = 30/5 = 6 meters per second
2x27x0.1=5.4 2x27=54 54x0.1=5.4
The perimeter of a quilt that is 3.5 x 6.5 meters is 20 meters (Are you sure you mean meters? That's a huge quilt. A typical quilt for a king size bed is only 2.5 meters long.). 20 meters plus 2/3 meter or a total of 20.6 meters of binding is required.
What do you mean? Do you mean "how long is 53 meters in yards?", or "how long is 53 meters in feet", or what?
A wavelength that measures 10^2 would be 100 meters long.
Wavelength is a measure of distance not area. It is the distance traveled by a signal from a Zero state to a Plus One state back through Zero to Minus One and returning to Zero.
The length of the rope would be half the wavelength of the standing wave, so in this case, the rope would be 5 meters long. This is because the fundamental frequency of the standing wave has one full wavelength, which corresponds to half the length of the rope.
Speed = (wavelength) times (frequency) = (wavelength) divided by (period) = 30/5 = 6 meters per second
68m
140m2
The wavelength with a frequency of 10 hertz is 30 meters. This calculation can be done using the formula: Wavelength = Speed of light / Frequency.
2x27x0.1=5.4 2x27=54 54x0.1=5.4
8 meters 8 meters
The wave base is typically half the wavelength, so for a wave that is 200 meters long, the wave base would be around 100 meters deep. This is the depth in the ocean at which water motion from a wave is negligible.
The Yangtze River is approximately 6,300 kilometers long.
If the wire is stretched it must mean that both ends are attached to something and are not free to move. As such a condition on any possible oscillation is that the end points remain stationary. If it is also a standing wave the first harmonic is formed by the oscillation which has only two stationary points (the ends). Only half of one wavelength fits on the wire therefore the wavelength of the first harmonic is twice 2.3 meters equaling 4.6 meters.