Difference Between Voltage & Current

The voltage and current are the two major aspects of electricity.The voltage is the type of the electromagnetic force whose effect causes the flow of electrical current in the circuit. The magnitude of a voltage and current depends on each other, but these two terms are different from each other in some ways.

One of the major differences between voltage and current is that the voltage is the difference between the two points and the current is the flow of electrical charges between these two points of an electric field. Some others differences between them are explained below in the comparison chart.

Content: Voltage Vs Current :

Comparison Chart
Definition
Key Differences
Conclusion

Comparison Chart :

Basis for Comparison Voltage Current

Definition Difference between two points of an electric field Flow of charges between two points

Unit Volt Ampere

Symbol V I

Formula

Field Created Magnetic Field Electrostatic Field

Types Alternating voltage & Direct voltage Alternating Current and Direct Current

Polarity Alternating voltage changes, but direct voltage can not change it polarity. Alternating current change its polarity but the polarity of the direct current remain constant.

Produces Alternator Voltage

Measuring instrument Voltmeter Ammeter

Charges 1 Volt = 1 Joule/ Coulomb 1 Amperes = 1 coulomb /second

Series Connection Unequal in all the components Equally distributed in all the component

Parallel Connection Magnitude of voltage remain same in all the component Magnitude of current vary in all the components.

Loss Due to impedance Due to passive elements

Relation It is the cause of the current It is the effect of the voltage

Basis for Comparison	Voltage	Current
Definition	Difference between two points of an electric field	Flow of charges between two points
Unit	Volt	Ampere
Symbol	V	I
Formula
Field Created	Magnetic Field	Electrostatic Field
Types	Alternating voltage & Direct voltage	Alternating Current and Direct Current
Polarity	Alternating voltage changes, but direct voltage can not change it polarity.	Alternating current change its polarity but the polarity of the direct current remain constant.
Produces	Alternator	Voltage
Measuring instrument	Voltmeter	Ammeter
Charges	1 Volt = 1 Joule/ Coulomb	1 Amperes = 1 coulomb /second
Series Connection	Unequal in all the components	Equally distributed in all the component
Parallel Connection	Magnitude of voltage remain same in all the component	Magnitude of current vary in all the components.
Loss	Due to impedance	Due to passive elements
Relation	It is the cause of the current	It is the effect of the voltage

The voltage is the type of the electromagnetic force. When the magnitude of the voltage is high, large current flow through the circuit and when their magnitude is low less current flow through it. The voltage is represented by the symbol V, and their SI unit is volt.

Definition of Voltage :

Voltage is mainly classified into two type, i.e., the alternating voltage and direct voltage. The alternating voltage changes its polarity, and the direct voltage does not change its polarity. The direct voltage is generated by the potential difference between the terminal of the electrochemical cell, and the alternating voltage is caused by the alternator.

Voltage Circuit Diagram

Sometimes in a transmission line, the voltage at the sending end is less than the voltage at the receiving end. The voltage is dissipated in the form of the heat and hence this loss of voltage is called voltage drop. The voltage drop occurs because of heavy load. When the heavy load is connected across the line, it draws heavy current due to which voltage loss occurs.

When the receiving end voltage is greater than the sending end voltage, then the voltage rise occurs in the line. The rise in voltage is called Ferranti effect, and it mainly occurs because of the charging current of the transmission line.

Definition of Current :

The current is the effect of the voltage. When the potential difference is applied across the conducting material, the electrical charge carrier starts moving from one atom to another. The current is represented by the symbol I and their SI unit is ampere. The one ampere of current represents the 6.24×1018 charge carrier. The majority of the charge carriers are negative charge carrier, and the direction of flow of current is from the negative point to relatively positive point.

Electron Flow

The electrical current is mainly divided into two types, i.e., the alternating current and direct current. In direct current, the electrons flow only in direction and in alternating current the direction of electrons reversed in every millisecond.

Key Differences Between Voltage and Current :

The voltage is the difference of the electrical charges between the two point of an electrical field, whereas the current is the flow of the electrical charges between the point of an electrical field.
The SI (International unit of the standard) unit of the voltage is volts, and the SI unit of the current is amperes.
The voltage is represented by the symbol V whereas the current is represented by the symbol I.
The voltage is defined as the ratio of the work done to the charge, whereas the current is the ratio of the charge to the time
The voltage generates the magnetic field around it whereas the current generates the electrostatic field around it.
The polarity of the alternating voltage remain changes and due to this alternating voltage, the alternating current induces. But the polarity of the direct voltage remains constant, and their effect induces a direct current.
The voltage is the difference between the point in an electric field, whereas the current is caused by the flow of the electron in the electrical field.
The voltage is measured by an instrument called a voltmeter whereas the current is measured by the ammeter.
The one volt is equal to the 1 joule/coulomb whereas the one ampere is equal to the one column/second.
In a series circuit, the magnitude of voltage remains different in all the component of the circuit whereas the magnitude of current remains same.
In the parallel circuit, the voltage at all the branches of the circuit remains same whereas the current is unequally distributed in the circuit component.
The voltage drop mainly occurs due to the impedance of the circuit whereas the current drop occurs due to the passive element (like a resistor) of the circuit.
- The impedance is the obstruction induces by an electrical circuit to the flow of an electrical current when the potential difference is applied across them.
The voltage is the cause of the current whereas the current is the effect of the voltage.

Conclusion :

According to ohm’s law, the voltage is directly proportional to the current. The quantitative voltage is generated when the flux is cut by the conductor which is placed between the rotating magnetic field. This voltage induces the current in the circuit. Thus, we can say that the voltage can exist without current, but current cannot exist without voltage. In other words, the current is the effect of the voltage, and the voltage is the cause of the current.

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