Voltage has different types of terms. As if electromotive force and potential difference are a part of this type. In the abstract, voltage is the pressure produced in an electrical circuit’s power source that shoves charged electrons through a conductor, thereby causing current. However, all the concepts subordinate to voltage have the same use, which is to cause the flow of current in an electrical circuit.
Electromotive Force vs Potential Difference
The main difference between electromotive force and the potential difference is that the electromotive force (emf) is the energy per unit charge exerted by the energy source throughout the circuit. While the potential difference (P.D) is the energy released when the current flows from one point to another in the circuit.
Electromotive force is not a type of force but an electrical action produced by a non-electrical source. Furthermore, emf is the electric potential caused by a magnetic field as well as an electrochemical cell. The measure of emf is the work done on a unit electric charge. It is represented by ε, and the SI unit is Volts (V).
On the other hand, the Potential difference is the difference calculated in the amount of energy that the charge carries from one point to another in the circuit. However, it is often denoted as the voltage. It is represented by P.D, and the SI unit is Volts(V).
Comparison Table Between Electromotive Force and Potential Difference
Parameters of Comparison | Electromotive Force | Potential Difference |
Meaning | Electromotive force is the energy per unit charge created by an electrical or non-electrical source in a circuit. It is denoted as Ɛ and its SI unit is Volts (V). | Potential Difference is the amount of energy that is calculated as the difference between one point and another in a circuit. The potential difference is denoted as P.D and its SI unit is Volts (V). |
History | In the 1830s, Michael Faraday established the new chemical reaction, where two electrode-electrolyte formed EMF for the voltaic cell. | Potential differences defined after the theory of Alessandro Volta had been proved. |
Caused | Electromotive force may be caused by electrochemical cells or any changes in the magnetic field. | Potential difference engenders when the current flows through the conductor, where free electrons move around and ultimately cause potential difference from one point to another. |
Formula | E=W/QElectromotive force= Work (Divide) Charge. | V=IRVoltage= Current (Multiple) Resistance. |
Formation | Electromotive force forms either by electrochemical cell or magnetic field. Besides, EMF may form even without current flow in a circuit. | Potential Difference forms only in an electric field. |
What is Electromotive Force?
Thus, Electromotive force (EMF) is kinda related to voltage, but it is the energy per unit charge imparted by an electrical source, such as a battery or an electrical generator. It is not at all a force concept but an electrical potential generated by an electrochemical cell or a changing magnetic field.
EMF occurs in a circuit with batteries or any electrical generator, as in this, one terminal is positively charged while the latter is negatively charged. Subsequently, the current will be flown due to the potentially charged electrodes. It is represented as ε, and the SI unit is Volts.
Besides, the Faraday law relates emf in the first by stating that the development of the electromagnetic field is due to the induced emf. The measure of Emf is the sum of source voltage and the product (Current and internal resistance). Numerically, it is the ratio of work done on a unit electric charge in the whole circuit. However, the value of emf is constant throughout the circuit.
What is Potential Difference?
On the contrary, the potential difference is actually the voltage difference between the two points in a circuit. In simple words, it is the electric energy transferred from one point to another in a circuit. When current flows through a conductor, the free electrons tend to move around, and this movement causes a difference in energy across the component, which is called an electrical potential difference.
However, the PD is not constant, as it determines the measure of energy between any two points of the circuit. It is represented as P.D with the SI unit Volts. The value of the potential difference is calculated by relating Ohm’s Law, where the potential difference is equal to the product of the current and resistance of the circuit.
Additionally, it can also be determined by a device called the voltmeter. Following the EMF’s part in the gravitational field, electric and magnetic fields, Potential difference is elicited only with the presence of electric fields.
Main Differences Between Electromotive Force and Potential Difference
Conclusion
Electromotive force (EMF) is an energy per unit charge which is produced either in an electric or non-electric field. It is a cause, which is determined by the electrochemical cells and variations in magnetic fields. Electromotive force is a constant form, which can be encountered with no current flow in a circuit. It is denoted as Ɛ and has an SI unit of Volts.
Potential Difference is the difference in energy between two points in a circuit. Potential differences can be seen only in electric sources, and they are prompted by the free electrons passed through the conductor while current flows in a circuit. The potential difference is represented as P.D and has the same SI unit as Volts.
References
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