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Relationship of Charge and Current Formula

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Charge Across Circuit is defined as the fundamental quantity represented by coulomb. Check FAQs

Q = \int (I i \cdot x, x, t 1, t 2)

Q - Charge Across Circuit?I_i - Incident Current?t₁ - Transient Initial Time?t₂ - Required Time?

Relationship of Charge and Current Example

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Here is how the Relationship of Charge and Current equation looks like with Values.

Here is how the Relationship of Charge and Current equation looks like with Units.

Here is how the Relationship of Charge and Current equation looks like.

46.74 = \int (12 \cdot x, x, 1.1, 3)

46.74C = \int (12A \cdot x, x, 1.1s, 3s)

46.74 = \int (12 \cdot x, x, 1.1, 3)

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Relationship of Charge and Current Solution

Follow our step by step solution on how to calculate Relationship of Charge and Current?

FIRST Step Consider the formula

Q = \int (I i \cdot x, x, t 1, t 2)

Next Step Substitute values of Variables

∴

Q = \int (12A \cdot x, x, 1.1s, 3s)

Next Step Prepare to Evaluate

∴

Q = \int (12 \cdot x, x, 1.1, 3)

LAST Step Evaluate

∴

Q = 46.74C

Relationship of Charge and Current Formula Elements

Variables

Functions

Charge Across Circuit

Charge Across Circuit is defined as the fundamental quantity represented by coulomb.

Symbol: Q

Measurement: Electric ChargeUnit: C

Note: Value should be greater than 0.

Formulas to find Charge Across Circuit

Incident Current

Incident Current is the Current wave that is traveling from the sending end to the receiving end of the Transmission line during any transient condition.

Symbol: I_i

Measurement: Electric CurrentUnit: A

Note: Value can be positive or negative.

Formulas to find Incident Current

Transient Initial Time

Transient Initial Time refers to the beginning of a transient event in a system. Usually marks the starting point of this deviation or disturbance.

Symbol: t₁

Measurement: TimeUnit: s

Note: Value should be greater than 0.

Formulas to find Transient Initial Time

Required Time

Required Time is the time required for 1 coulomb of charge to move from one point to the other.

Symbol: t₂

Measurement: TimeUnit: s

Note: Value should be greater than 0.

Formulas to find Required Time

int

The definite integral can be used to calculate net signed area, which is the area above the x -axis minus the area below the x -axis.

Syntax: int(expr, arg, from, to)

Other formulas in Transient category

Go Characteristic Impedance (Line SC)

Z 0 = \frac{V i}{I i}

Go Incident Voltage using Transmitted Voltage (Load OC)

V i = \frac{V t}{2}

Go Load Impedance using Reflected Coefficient of Current

I l = Z 0 \cdot \frac{1 - ρ i}{ρ i - 1}

Go Load Impedance using Reflected Coefficient of Voltage

I l = Z 0 \cdot \frac{ρ v + 1}{1 - ρ v}

How to Evaluate Relationship of Charge and Current?

Relationship of Charge and Current evaluator uses Charge Across Circuit = int(Incident Current*x,x,Transient Initial Time,Required Time) to evaluate the Charge Across Circuit, The Relationship of Charge and Current formula is the fundamental nature of electric current as the flow of electric charge in a stipulated amount of time. Charge Across Circuit is denoted by Q symbol.

How to evaluate Relationship of Charge and Current using this online evaluator? To use this online evaluator for Relationship of Charge and Current, enter Incident Current (I_i), Transient Initial Time (t₁) & Required Time (t₂) and hit the calculate button.

FAQs on Relationship of Charge and Current

What is the formula to find Relationship of Charge and Current?

The formula of Relationship of Charge and Current is expressed as Charge Across Circuit = int(Incident Current*x,x,Transient Initial Time,Required Time). Here is an example- 46.74 = int(12*x,x,1.1,3).

How to calculate Relationship of Charge and Current?

With Incident Current (I_i), Transient Initial Time (t₁) & Required Time (t₂) we can find Relationship of Charge and Current using the formula - Charge Across Circuit = int(Incident Current*x,x,Transient Initial Time,Required Time). This formula also uses Definite Integral Function function(s).

Can the Relationship of Charge and Current be negative?

No, the Relationship of Charge and Current, measured in Electric Charge cannot be negative.

Which unit is used to measure Relationship of Charge and Current?

Relationship of Charge and Current is usually measured using the Coulomb[C] for Electric Charge. Kilocoulomb[C], Millicoulomb[C], Picocoulomb[C] are the few other units in which Relationship of Charge and Current can be measured.

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Relationship of Charge and Current Formula

Relationship of Charge and Current Example

Relationship of Charge and Current Solution

Relationship of Charge and Current Formula Elements

Other formulas in Transient category

How to Evaluate Relationship of Charge and Current?

FAQs on Relationship of Charge and Current

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