Is EMF a voltage or energy?

Why terminal potential of a cell (or a battery) is always less than its emf ?
Answer : The terminal potential (or terminal voltage) of a cell or battery is always less than its electromotive force (EMF) because of the internal resistance of the cell or battery. Here's a simple ... is always less than the EMF by an amount that depends on the current and the internal resistance....

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When discharging the terminal voltage of a battery can never be greater than the emf of the battery?

When discharging the terminal voltage of a battery can never be greater than the emf of the battery?
Answer : Correct! The terminal voltage of a battery **can never** be greater than its **electromotive force (emf)** during discharging. Here's why: 1. **Definition of emf**: The emf of a ... will always be slightly lower than the emf when the battery is supplying current, due to the internal resistance....

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Why is the terminal voltage across A battery more than the emf during charging?

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Why is the emf of a cell always greater than its terminal voltage?

Why is the emf of a cell always greater than its terminal voltage?
Answer : The electromotive force (emf) of a cell is always greater than its terminal voltage due to the internal resistance of the cell. Here's how it works: 1. **Emf (Electromotive Force):** This ... the circuit. That's why the emf is always greater than the terminal voltage in a practical situation....

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Can the terminal voltage of a battery ever exceed its emf?

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Why is there a difference between the terminal voltage of a battery and the emf of that battery?

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Can the terminal voltage of a battery be greater than its emf?

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Can the terminal voltage of a battery be greater than the battery's emf?

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What is the difference between emf and terminal voltage of a cell?

What is the difference between emf and terminal voltage of a cell?
Answer : The **electromotive force (EMF)** and **terminal voltage** of a cell are related but different concepts in electrical circuits. Here's the key difference: 1. **EMF (Electromotive Force)** - ... *), terminal voltage **drops** due to internal resistance. Would you like an example to clarify? ��...

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Why the emf of a cell is always greater than the terminal voltage?

Why the emf of a cell is always greater than the terminal voltage?
Answer : The electromotive force (emf) of a cell is always greater than its terminal voltage because of the **internal resistance** of the cell. Here's how it works: 1. **Emf**: This is the total ... of that energy is "lost" to the internal resistance of the cell, causing the terminal voltage to be lower....

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Why is the terminal voltage across a battery more than the emf during charging?

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Why is the terminal voltage of a cell less than emf?

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What is the difference between the terminal voltage of a battery and its emf?

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Why the emf of a cell is greater than its terminal voltage?

Why the emf of a cell is greater than its terminal voltage?
Answer : The electromotive force (emf) of a cell is the maximum potential difference it can provide when no current is flowing through the circuit. On the other hand, the terminal voltage is the potential difference ... is flowing, there is no voltage drop, and the terminal voltage is equal to the emf....

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What is the difference between terminal voltage of a battery and emf?

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Why the emf of a cell is always greater than its terminal voltage?

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How to know if emf is negative or positive?

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Is back eMF positive or negative?

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Is EMF good or bad?

Is EMF good or bad?
Answer : Electromagnetic fields (EMF) can be both good and bad, depending on the type and level of exposure. Let's break it down: ### **Good Uses of EMF:** 1. **Medical Applications: ... good idea to follow safety guidelines for using devices like cell phones or microwaves to minimize unnecessary exposure....

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Is EMF scalar or vector?

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Is EMF AC or DC?

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Is back emf AC or DC?

Is back emf AC or DC?
Answer : Back EMF (Electromotive Force) can be either **AC (Alternating Current)** or **DC (Direct Current)**, depending on the type of motor or system you're dealing with. - **In DC motors**: Back EMF is ... So, whether back EMF is AC or DC depends on the motor's type and the nature of the supply current....

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Is induced emf positive or negative?

Is induced emf positive or negative?
Answer : Induced electromotive force (emf) can be either positive or negative, depending on the direction of the change in magnetic flux. In **Faraday's Law of Induction**, the induced emf is ... positive or negative depending on how the magnetic field changes and the direction of the induced current....

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Is emf good or bad?

Is emf good or bad?
Answer : Electromotive force (EMF) itself isn't inherently "good" or "bad" - it depends on how it is used and the context in which it appears. ### What is EMF? EMF is the force that causes ... high levels of electromagnetic radiation over time. So, whether EMF is good or bad depends on the situation!...

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Is emf scalar or vector?

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Is emf always less than PD True or false?

Is emf always less than PD True or false?
Answer : False. The electromotive force (emf) is not always less than the potential difference (PD). In an ideal situation (such as in a perfect battery with no internal resistance), the emf and the potential difference ... ), the PD equals the emf. But when current flows, the PD can be less than the emf....

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Which is greater emf or terminal potential difference?

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Which one is greater emf or terminal potential difference and why?

Which one is greater emf or terminal potential difference and why?
Answer : The **electromotive force (emf)** of a source is typically greater than the **terminal potential difference** (also called the terminal voltage) when there is a current flowing through the circuit. ### Here's ... \] So in this case, the terminal voltage is 10V, which is less than the emf of 12V....

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What is the relation between applied voltage and emf induced with respect to flux wave?

What is the relation between applied voltage and emf induced with respect to flux wave?
Answer : The relationship between the applied voltage and the induced electromotive force (emf) in the context of flux waves is rooted in Faraday's Law of Induction. Let me explain this step by step in simple ... the flux changes, the higher the induced emf will be. Does this help clarify the relationship?...

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Why is emf opposite to voltage?

Why is emf opposite to voltage?
Answer : Electromotive force (emf) and voltage are closely related, but they are not quite the same thing, and their relationship can sometimes seem confusing. To understand why emf is "opposite" to voltage, we need to ... they can "oppose" each other in terms of where the energy is lost and where it's used....

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Is emf always voltage?

Is emf always voltage?
Answer : Electromotive force (EMF) is often associated with voltage, but they are not exactly the same thing. **EMF** is a measure of the energy provided by a source (like a battery or generator) to ... can refer to the potential difference at any point in a circuit, whether or not there's current flowing....

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Why is terminal voltage more than emf?

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Why is terminal voltage equal to emf?

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Why is emf always greater than terminal voltage?

Why is emf always greater than terminal voltage?
Answer : Electromotive force (emf) is the total voltage generated by a source like a battery or a generator, and terminal voltage is the actual voltage measured across the terminals of the source when it's ... the voltage is "lost" inside the power source due to its internal resistance when current flows....

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What is the difference between emf and terminal voltage?

What is the difference between emf and terminal voltage?
Answer : The **electromotive force (emf)** and **terminal voltage** are related but distinct concepts in electrical circuits. Here's the difference: ### 1. **Electromotive Force (emf)** - **Definition**: ... 's terminal voltage is 10V, which is lower than its emf of 12V due to the internal resistance....

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Why emf is always greater than its terminal voltage?

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Can terminal voltage exceed emf?

Can terminal voltage exceed emf?
Answer : No, the terminal voltage of a device (like a battery or generator) cannot exceed its EMF (electromotive force) under normal operating conditions. Here's why: 1. **EMF Definition**: The ... cannot exceed the EMF** because the internal resistance always causes a voltage drop when current is flowing....

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Why is the terminal voltage always less than the emf?

Why is the terminal voltage always less than the emf?
Answer : The terminal voltage of a battery or power source is always less than its electromotive force (emf) due to internal resistance. Here's a simple explanation: 1. **Emf** is the maximum ... voltage drop across the internal resistance becomes larger, making the terminal voltage even lower than the emf....

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Why back EMF is always less than applied voltage?

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Can emf be higher than voltage?

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Why is terminal voltage less than emf?

Why is terminal voltage less than emf?
Answer : The terminal voltage of a battery or any power source is less than its electromotive force (emf) due to the internal resistance of the battery. Here's a simple explanation: 1. **EMF (Electromotive ... inside the battery. If there is no current (open circuit), the terminal voltage equals the EMF....

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