Yes, all matter has a characteristic frequency at which it vibrates. This frequency is determined by the energy levels of the particles that make up the matter. In quantum mechanics, this frequency is associated with the particles' wave functions.
Speed, amplitude, and wavelength/frequency.
Solid mater will vibrate if excited by an input source. If the input source is near the resonant (natural) frequency of the solid it will vibrate with higher magnitude. Resonant frequency will depend on the mass, shape, dimension, material, and support of the solid and can be calculated by mathematical techniques
The speed of light in a vacuum is approximately 3.00 x 10^8 m/s. You can calculate the speed of the photon using the formula speed = frequency x wavelength, where wavelength = speed/frequency. Given the frequency of 4.3 x 10^14 Hz, you can calculate the speed of the photon.
Mechanical, electromagnetic, and matter waves are all types of waves that carry energy through a medium or space. They exhibit wave-like behavior such as interference and diffraction. They can also be characterized by properties such as wavelength, frequency, and amplitude.
The fundamental frequency of a wave is the lowest frequency (longest wavelength) that can be used to define its period. The easiest way to understand it is via a musical analogy: The fundamental frequency is the root tone of the overtone or harmonic series.
Speed, amplitude, and wavelength/frequency.
The frequency of the power waveform in a capacitive circuit, or for that matter, an inductive circuit, is the same as the input voltage or current. Its just that the current leads the voltage (capacitor) or lags the voltage (inductor) by a phase angle, the cosine of which is the power factor. It does not matter how many sine waves you have, or what their phase angle is; if they all have the same frequency, the resultant, by Fourier analysis, is still a sine wave of the same frequency.
There isn't any. Whatever frequency you name, no matter how low it is, I can always name a frequency that's lower than yours.
The frequency in a frequency table is the number of occurrences within each class width. The total frequency is the sum of all frequency's within all the classes.
The signal that changes at a higher rate occupies greater bandwidth.
Which frequency? Frequency in Hertz can be accepted as linear frequency. What is non linear is usually the method of "presenting" it, like a non linear logarithmic scale. Also there is the matter of angular frequency defined as w = 2*π*f, where f is linear frequency (Hz or s^-1).
Which one of the two you do does not matter.
Solid mater will vibrate if excited by an input source. If the input source is near the resonant (natural) frequency of the solid it will vibrate with higher magnitude. Resonant frequency will depend on the mass, shape, dimension, material, and support of the solid and can be calculated by mathematical techniques
A: Take 115 volts and multiply by 2.82. The frequency does not matter but he voltage does
The speed of light in a vacuum is approximately 3.00 x 10^8 m/s. You can calculate the speed of the photon using the formula speed = frequency x wavelength, where wavelength = speed/frequency. Given the frequency of 4.3 x 10^14 Hz, you can calculate the speed of the photon.
Data representation. Cumulative frequency is the sum of all previous frequencies.
Cumulative Frequency is The total of a frequency and all frequencies so far in a frequency distribution. It is the 'running total' of frequencies in the frequency distribution table.