Electromagnetic Induction and Faraday's Law - AP Physics 2
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What is Lenz's Law?
What is Lenz's Law?
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The direction of the induced current opposes the change in magnetic flux. Explains the negative sign in Faraday's Law equation.
The direction of the induced current opposes the change in magnetic flux. Explains the negative sign in Faraday's Law equation.
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Identify the unit for magnetic field strength.
Identify the unit for magnetic field strength.
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Tesla (T). Measures magnetic field intensity or flux density.
Tesla (T). Measures magnetic field intensity or flux density.
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What does Faraday's Law of Induction state?
What does Faraday's Law of Induction state?
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The induced emf is equal to the negative rate of change of magnetic flux. This is the fundamental principle governing electromagnetic induction.
The induced emf is equal to the negative rate of change of magnetic flux. This is the fundamental principle governing electromagnetic induction.
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Calculate magnetic flux for $B = 2 \text{T}$ and $A = 3 \text{m}^2$.
Calculate magnetic flux for $B = 2 \text{T}$ and $A = 3 \text{m}^2$.
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$\text{Φ}_B = 6 \text{Wb}$. Use $\Phi_B = BA$: $2 \times 3 = 6 \text{Wb}$.
$\text{Φ}_B = 6 \text{Wb}$. Use $\Phi_B = BA$: $2 \times 3 = 6 \text{Wb}$.
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State the relationship between magnetic flux and area.
State the relationship between magnetic flux and area.
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Magnetic flux is directly proportional to the area. Larger area allows more field lines to pass through.
Magnetic flux is directly proportional to the area. Larger area allows more field lines to pass through.
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What is the role of a galvanometer in induction experiments?
What is the role of a galvanometer in induction experiments?
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To measure the induced current. Detects and measures small currents in induction experiments.
To measure the induced current. Detects and measures small currents in induction experiments.
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What factor does not affect the magnitude of induced emf?
What factor does not affect the magnitude of induced emf?
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Resistance of the coil. Resistance affects current, not the induced emf magnitude.
Resistance of the coil. Resistance affects current, not the induced emf magnitude.
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What is the impact of increasing coil area on emf?
What is the impact of increasing coil area on emf?
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Increases magnetic flux and induces greater emf. Larger area captures more magnetic flux for induction.
Increases magnetic flux and induces greater emf. Larger area captures more magnetic flux for induction.
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What does the negative sign in Faraday's Law signify?
What does the negative sign in Faraday's Law signify?
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Opposition to change in magnetic flux (Lenz's Law). Represents Lenz's Law - induced effects oppose the change.
Opposition to change in magnetic flux (Lenz's Law). Represents Lenz's Law - induced effects oppose the change.
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What is the relationship between emf and coil orientation?
What is the relationship between emf and coil orientation?
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Emf is maximized when the coil is perpendicular to the magnetic field. Maximum flux change occurs when perpendicular to field lines.
Emf is maximized when the coil is perpendicular to the magnetic field. Maximum flux change occurs when perpendicular to field lines.
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How does a closed loop influence induced emf?
How does a closed loop influence induced emf?
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A closed loop allows an induced current to flow. Provides a complete path for induced current circulation.
A closed loop allows an induced current to flow. Provides a complete path for induced current circulation.
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What unit is used to measure magnetic flux?
What unit is used to measure magnetic flux?
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Weber (Wb). Named after Wilhelm Weber, equivalent to $\text{T}\cdot\text{m}^2$.
Weber (Wb). Named after Wilhelm Weber, equivalent to $\text{T}\cdot\text{m}^2$.
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Identify one application of electromagnetic induction.
Identify one application of electromagnetic induction.
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Electric generators. Converts mechanical energy to electrical energy using induction.
Electric generators. Converts mechanical energy to electrical energy using induction.
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What happens to emf if the magnetic field is uniform?
What happens to emf if the magnetic field is uniform?
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No change in flux, no induced emf. Uniform field means no spatial flux variation.
No change in flux, no induced emf. Uniform field means no spatial flux variation.
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What is Lenz's Law?
What is Lenz's Law?
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The direction of the induced current opposes the change in magnetic flux. Explains the negative sign in Faraday's Law equation.
The direction of the induced current opposes the change in magnetic flux. Explains the negative sign in Faraday's Law equation.
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Define magnetic flux.
Define magnetic flux.
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Magnetic flux is the product of the magnetic field and the area through which it passes. Quantifies how much magnetic field passes through a surface.
Magnetic flux is the product of the magnetic field and the area through which it passes. Quantifies how much magnetic field passes through a surface.
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Define the term 'flux linkage'.
Define the term 'flux linkage'.
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Product of the magnetic flux and the number of turns in a coil. Total magnetic flux linking all turns of a coil.
Product of the magnetic flux and the number of turns in a coil. Total magnetic flux linking all turns of a coil.
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Which factor affects the magnitude of induced emf?
Which factor affects the magnitude of induced emf?
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Rate of change of magnetic flux. Faster flux changes produce larger induced emf magnitudes.
Rate of change of magnetic flux. Faster flux changes produce larger induced emf magnitudes.
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What is the effect of increasing magnetic field strength on flux?
What is the effect of increasing magnetic field strength on flux?
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Magnetic flux increases. More field lines pass through the same area.
Magnetic flux increases. More field lines pass through the same area.
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Identify the unit of electromotive force (emf).
Identify the unit of electromotive force (emf).
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Volt (V). Same unit as voltage since emf represents induced potential difference.
Volt (V). Same unit as voltage since emf represents induced potential difference.
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Find induced emf for $\text{Φ}_B$ change from 10 Wb to 5 Wb in 2 s.
Find induced emf for $\text{Φ}_B$ change from 10 Wb to 5 Wb in 2 s.
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$\text{emf} = -2.5 \text{V}$. Use $\text{emf} = -\frac{\Delta\Phi_B}{\Delta t} = -\frac{5-10}{2} = -2.5 \text{V}$.
$\text{emf} = -2.5 \text{V}$. Use $\text{emf} = -\frac{\Delta\Phi_B}{\Delta t} = -\frac{5-10}{2} = -2.5 \text{V}$.
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Explain mutual induction.
Explain mutual induction.
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Inducing emf in one coil due to change in current in another. Current change in one coil induces emf in nearby coil.
Inducing emf in one coil due to change in current in another. Current change in one coil induces emf in nearby coil.
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What is the main principle behind transformers?
What is the main principle behind transformers?
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Electromagnetic induction. Uses changing magnetic flux to transfer energy between coils.
Electromagnetic induction. Uses changing magnetic flux to transfer energy between coils.
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How does moving a magnet in a coil induce emf?
How does moving a magnet in a coil induce emf?
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It changes the magnetic flux through the coil. Motion changes the magnetic flux through the coil.
It changes the magnetic flux through the coil. Motion changes the magnetic flux through the coil.
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What happens if magnetic field strength is constant?
What happens if magnetic field strength is constant?
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No change in magnetic flux and no induced emf. Constant field means $\frac{d\Phi_B}{dt} = 0$, so no emf.
No change in magnetic flux and no induced emf. Constant field means $\frac{d\Phi_B}{dt} = 0$, so no emf.
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How does the number of turns in a coil affect emf?
How does the number of turns in a coil affect emf?
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More turns increase the induced emf. Each turn contributes to the total induced emf.
More turns increase the induced emf. Each turn contributes to the total induced emf.
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What does the term 'emf' stand for?
What does the term 'emf' stand for?
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Electromotive force. The potential difference induced by changing magnetic flux.
Electromotive force. The potential difference induced by changing magnetic flux.
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Explain the role of a solenoid in electromagnetic induction.
Explain the role of a solenoid in electromagnetic induction.
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A solenoid can enhance the magnetic field and hence induce emf. Multiple turns multiply the induced emf effect.
A solenoid can enhance the magnetic field and hence induce emf. Multiple turns multiply the induced emf effect.
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Calculate induced emf for $\frac{d\text{Φ}_B}{dt} = -3 \text{Wb/s}$.
Calculate induced emf for $\frac{d\text{Φ}_B}{dt} = -3 \text{Wb/s}$.
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$\text{emf} = 3 \text{V}$. Apply Faraday's Law: $\text{emf} = -(-3) = 3 \text{V}$.
$\text{emf} = 3 \text{V}$. Apply Faraday's Law: $\text{emf} = -(-3) = 3 \text{V}$.
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What is meant by 'induced emf'?
What is meant by 'induced emf'?
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A voltage generated by changing magnetic fields. The electrical potential difference created by changing magnetic flux.
A voltage generated by changing magnetic fields. The electrical potential difference created by changing magnetic flux.
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