Translate gyration to Go

The International Phonetic Alphabet (IPA) is an alphabetic system of phonetic notation based primarily on the Latin alphabet. With phonetic transcriptions, dictionarie tell you about the pronunciation of words, because the spelling of an English word does not tell you how you should pronounce it. Below is the phonetic transcription of gyration:

/d͡ʒajɹejʃən/

noun

plural: gyrations

Noun

1

a single complete turn (axial or orbital)

Synonymsrevolution, rotation,

Type ofturn, turning,

Typesaxial motion, axial rotation, clockwise rotation, counterclockwise rotation, dextrorotation, levorotation, orbital motion, orbital rotation, roll, spin,

See alsogyrate,

2

the act of rotating in a circle or spiral

Synonymswhirling,

Type ofrotary motion, rotation,

See alsogyrate,

- through this gyration, especially when you got a
- with your application of continuous gyration and torque
- is defined in terms of the radius of gyration, r as follows.
- Le is the effective length and r is the radius of the gyration
- He is part of us so at the end of all this great gyration
- Substituting I is equal to Ar square where r is the radius of gyration and r square by
- We are calculating the square of the radius of gyration, r square equal to I by A. Once
- a in practice, a is design to be a real quantity therefore, a is called has the Gyration resistance.
- Gyration resistance and the usual symbol for a Gyrator is like this. This is the symbol
- for a gyrator with the gyration resistance denoted here exactly like a transformer you
- indicate Trans ratio N is to 1. Here the gyration resistance is indicated and the direction
- of the gyration is indicated by an arrow. That means, you have to terminate here to
- get an input impedance here alright. The gyration is in this direction. Why is the direction important?
- do not transmit equally well in both directions alright. And therefore, the direction of gyration is important.
- r is the radius of gyration. Once we substitute that and we transpose the terms, we can find
- gyration divided by yb, which is the distance of the bottom edge from the CGC. Thus, this
- here r is the radius of gyration.
- by yt. Again, here r is the radius of gyration and yt is the distance of the top edge from
- We calculate the square of radius of gyration. r square is defined as equal to I by A. Once
- THAT'S IT! GYRATION!