If the first harmonic of 1 kHz is 2 kHz, then the second harmonic is the odd order harmonic of 3 kHz.
For a fundamental frequency of 1000 Hertz, the 2nd harmonic will simply be twice that, or 2000 Hertz.
The fundamental is defined as the primary frequency of the system. In other words the fundamental of a 60 hz system is 60 hertz x 1 = 60 hz In discussions involving harmonics is is common to see terms such as the 3rd harmonic. This means that it is a frequency that is 3x the fundamental or 180 hz.
When discussing harmonics in relation to transformers, generally you're thinking of harmonics in the current waveform - if it's a 60Hz transformer, the 2nd harmonic would be 120Hz, and is usually very high on transformer energization (referred to as inrush current). The nonlinearity of the core can result in core saturation under multiple different conditions, which tend to produce harmonic currents.
Its frequency, in Hertz.
The term Hertz (abbreviated Hz.) is used to describe the frequency with which current changes its' direction of flow in a second. Such as, our system frequency is 60 Hz.
Hz is short for Hertz and means "vibrations per second"; the prefix "M" means mega, that is, millions.
An overtone is the music counterpart of harmonics in audio electronics. A harmonic is the multiple of the fundamental frequency. For example, if the fundamental frequency is 1,000 Hertz (cycles per second), then the second harmonic is twice of the fundamental or 2,000 Hertz. So it goes on such that: 3rd harmonic or overtone is 3,000 Hertz 4th is 4,000 Hertz and so on. Remember that one Hertz is equal to one wave cycle per second. So the higher the harmonic or overtone, the higher is the frequency compared to the fundamental.
The fundamental is defined as the primary frequency of the system. In other words the fundamental of a 60 hz system is 60 hertz x 1 = 60 hz In discussions involving harmonics is is common to see terms such as the 3rd harmonic. This means that it is a frequency that is 3x the fundamental or 180 hz.
Frequency is measured in hertz. Cycles per second.
dynamic frequency, which is cycles per second, or Hertz
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.
Frequency, which is measured in Hertz (Hz)
The hertz (symbol Hz) is the SI unit of frequency defined as the number of cycles per second of a periodic phenomenon
Hertz means cycles per second. That is its' frequency.
The SI unit for frequency is Hertz, the number of cycles per second.
Hertz, hz= 1/second is the unit measure of frequency.
== Frequency speaks to the number of oscillations per unit of time. Oscillations or cycles per unit of time is a concept applied to some kind of repeating or harmonic motion or wave, and it could be mechanical (sound) or electromagnetic (light). When we consider the frequency of these oscillations, we see the frequency as the number of cycles per second that the oscillation makes. And cycles per second is what is called Hertz, after Heinrich Hertz, an early investigator. (One cycle per second is one Hertz.) A link can be found below.
It is a frequency of 12 Hertz.