Physics

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If you connect two different capacitors in parallel in a circuit, then the charge on each of them is different

true

If you connect two different capacitors in parallel in a circuit, then the voltage across each of them is the same

true

If you connect two different capacitors in series in a circuit, then the charge on each of them is the same

true

If you connect two different capacitors in series in a circuit, then the voltage across each of them is different

true

If you connect two different resistors in parallel in a circuit, then the current that flows through each of them is different

true

If you connect two different resistors in series in a circuit, then the current that flows through each of them is the same

true

If you connect two different resistors in series in a circuit, then the voltage across each of them is different

true

The capacitance depends on the material between the plates

true

The capacitance is inversely proportional to the plate separation d

true

The capacitance is proportional to the area A

true

The charge of a connected charged capacitor decreases when the plates are pulled apart

true

The charge of a connected charged capacitor increases when the plates are brought closer together

true

The charge of a disconnected charged capacitor remains the same when the plate area is increased

true

The charge of a disconnected charged capacitor remains the same when the plates are brought closer together

true

The electric field is dependent on the charge density on the plates

true

The resistivity depends on the temperature of most metal wires

true

The voltage of a connected charged capacitor remains the same when the plates are brought closer together

true

The voltage of a disconnected charged capacitor decreases when the plate area is increased

true

The voltage of a disconnected charged capacitor decreases when the plates are brought closer together

true

The voltage of a disconnected charged capacitor increases when the plates are pulled apart

true

Three identical capacitors in parallel have triple the capacitance of each individual one

true

Three identical resistors in parallel have one third the resistance of each individual one.

true

Three identical resistors in series have triple the resistance of each individual one

true

Two identical capacitors in parallel have double the capacitance of each individual one

true

Two identical capacitors in series have half the capacitance of each individual one

true

While maintaining a constant voltage V, the current I decreases when the length L of a wire increases

true

While maintaining a constant voltage V, the current I increases when the cross-sectional area A of a wire expands

true

The voltage of a disconnected charged capacitor decreases when the plate area is decreased

false

The voltage of a disconnected charged capacitor decreases when the plates are pulled apart

false

The voltage of a disconnected charged capacitor remains the same when the plate area is decreased

false

Three identical capacitors in parallel have one third the capacitance of each individual one

false

Three identical capacitors in series have triple the capacitance of each individual one

false

Three identical resistors in parallel have triple the resistance of each individual one

false

Three identical resistors in series have one third the resistance of each individual one

false

Two identical capacitors in parallel have half the capacitance of each individual one

false

Two identical resistors in parallel have double the resistance of each individual one

false

Two identical resistors in series have half the resistance of each individual one

false

While maintaining a constant voltage V, the current I decreases when the length L of a wire decreases

false

While maintaining a constant voltage V, the current I increases when the length L of a wire increases

false

While maintaining a constant voltage V, the current I increases when the resistivity ρ of a wire increases

false

Remember the following formulas for resistors connected in parallel or series:Rparallel = 1/( 1/R1 + 1/R2 + 1/R3 + etc.) and Rseries = R1 + R2 + R3 + etc.Also, resistors connected in parallel must have the same voltage, whereas resistors connected in series must have the same current flowing through each one.

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Remember that the capacitance C of a parallel plate capacitor of area A, seperation distance d, and dialectric ε0 (depends on the material between the plates) is given by: C = ε0A/d.Also, to build a charge Q on the plates with a capacitanceC, a potential difference V is required. Q = VC

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Remember that the resistance R of a wire of cross-sectional area A, length L, and resistivity ρ (depends on the material and temperature) is given by: R = ρL/A.Also, Ohm's Law states that to produce a current I through a wire with resistance R, the potential difference V = IR is required.

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Remember the following formulas for capacitors connected in parallel or series:Cseries = 1/( 1/C1 + 1/C2 + 1/C3 + etc.) and Cparallel = C1 + C2 + C3 + etc.Also, capacitors connected in parallel must have the same voltage, whereas capacitors connected in series must have the same charge on each one.

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If you connect two different resistors in series in a circuit, then the current that flows through each of them is different.

False

While maintaining a constant voltage V, the current I decreases when the cross-sectional area A of a wire expands.

False

While maintaining a constant voltage V, the current I decreases when the resistivity ρ of a wire decreases

False

If you connect two different resistors in parallel in a circuit, then the voltage across each of them is the same.

True

The resistance is inversely proportional to the cross-sectional area A of the wire.

True

The resistance is proportional to the length of the wire L.

True

Two identical resistors in series have double the resistance of each individual one.

True

While maintaining a constant voltage V, the current I decreases when the cross-sectional area A of a wire contracts.

True

While maintaining a constant voltage V, the current I decreases when the resistivity ρ of a wire increases.

True

If you connect two different capacitors in parallel in a circuit, then the charge on each of them is the same

false

If you connect two different capacitors in parallel in a circuit, then the voltage across each of them is different

false

If you connect two different capacitors in series in a circuit, then the charge on each of them is different

false

If you connect two different capacitors in series in a circuit, then the voltage across each of them is the same

false

If you connect two different resistors in parallel in a circuit, then the current that flows through each of them is the same.

false

If you connect two different resistors in parallel in a circuit, then the voltage across each of them is different.

false

If you connect two different resistors in series in a circuit, then the voltage across each of them is the same.

false

The capacitance does not depend on the material between the plates

false

The capacitance is inversely proportional to the area A

false

The capacitance is proportional to the plate separation d

false

The charge of a connected charged capacitor remains the same when the plate area is increased

false

The charge of a disconnected charged capacitor decreases when the plate area is increased

false

The charge of a disconnected charged capacitor decreases when the plates are pulled apart

false

The charge of a disconnected charged capacitor increases when the plate area is increased

false

The charge of a disconnected charged capacitor increases when the plates are brought closer together

false

The charge of a disconnected charged capacitor increases when the plates are pulled apart

false

The electric field is dependent on the distance between the plates

false

The resistance is inversely proportional to the length of the wire L

false

The resistance is proportional to the cross-sectional area A of the wire

false

The resistivity does not depend on the temperature of most metal wires

false

The resistivity ρ is inversely proportional to the resistance R of a wire

false

The voltage of a connected charged capacitor decreases when the plate area is decreased

false

The voltage of a connected charged capacitor decreases when the plate area is increased

false

The voltage of a connected charged capacitor increases when the plates are brought closer together

false

The voltage of a connected charged capacitor increases when the plates are pulled apart

false


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