# What is the equation i Q t?

## What is the equation i Q t?

The charge of an electron is 1.6 x 10 -19 C. In other words, it takes 6,250,000,000,000,000,000 electrons to make up 1 coulomb of charge. A coulomb of charge is just a very large group of electrons….The relationship between current I and quantity of charge Q.

I = I = Q ÷ t
Q = It Q = I x t
t = t = Q ÷ I

What is q current?

Q is the electric charge, measured in coulombs [C]. I is the current, measured in amperes [A]. t is the time period, measured in seconds [s].

### What is electron flow?

Electron Flow is what actually happens and electrons flow out of the negative terminal, through the circuit and into the positive terminal of the source. Both Conventional Current and Electron Flow are used. In general, high school Physics and two year technician programs use Electron Flow.

What is Q T in physics?

As a rate quantity, current (I) is expressed by the following equation. I = Q / t. where Q is the quantity of charge flowing by a point in a time period of t. The standard metric unit for the quantity current is the ampere, often abbreviated as Amps or A.

#### How current is generated?

When a voltage is applied to a conductor or semiconductor, electric current starts flowing. In conductors, positively charged protons are held in a fixed position and the negatively charged electrons move from one place to another place by carrying the charge. Thus, electrons conduct electric current in conductors.

Do electrons actually flow?

Electrons do not move along a wire like cars on a highway. Actually, Any conductor (thing that electricity can go through) is made of atoms. If you put new electrons in a conductor, they will join atoms, and each atom will deliver an electron to the next atom.

## Does current flow electron?

The flow of electrons is termed electron current. Electrons flow from the negative terminal to the positive. Conventional current or simply current, behaves as if positive charge carriers cause current flow. Conventional current flows from the positive terminal to the negative.