HARD

Diploma

IMPORTANT

Earn 100

A 9.0V battery is used to charge a 20mF capacitor. Calculate the charge on the capacitor.

Important Questions on Electromagnetic Induction (HL)

HARD

Diploma

IMPORTANT

Physics for the IB Diploma 6th Edition>Chapter 11 - Electromagnetic Induction (HL)>Test yourself>Q 25

A 9.0V battery is used to charge a 20mF capacitor. Calculate the energy stored in the capacitor.

HARD

Diploma

IMPORTANT

Physics for the IB Diploma 6th Edition>Chapter 11 - Electromagnetic Induction (HL)>Test yourself>Q 25

A 9.0V battery is used to charge a 20mF capacitor. The capacitor discharges in a time of 50ms. Estimate the power released during the discharge.

HARD

Diploma

IMPORTANT

Physics for the IB Diploma 6th Edition>Chapter 11 - Electromagnetic Induction (HL)>Test yourself>Q 26

Two capacitors of capacitance

120 μ F

and

240 μ F

Are connected in parallel. The two are then connected to a source of potential difference

6.0 V

. Calculate the total capacitance of the arrangment.

HARD

Diploma

IMPORTANT

Physics for the IB Diploma 6th Edition>Chapter 11 - Electromagnetic Induction (HL)>Test yourself>Q 26

Two capacitors of capacitance

120 μ F

and

240 μ F

Are connected in parallel. The two are then connected to a source of potential difference

6.0 V

. Calculate the charge stored on each capacitor.

HARD

Diploma

IMPORTANT

Physics for the IB Diploma 6th Edition>Chapter 11 - Electromagnetic Induction (HL)>Test yourself>Q 26

Two capacitors of capacitance

120 μ F

and

240 μ F

Are connected in parallel. The two are then connected to a source of potential difference

6.0 V

. Calculate the energy stored in each capacitor.

HARD

Diploma

IMPORTANT

Physics for the IB Diploma 6th Edition>Chapter 11 - Electromagnetic Induction (HL)>Test yourself>Q 27

Two capacitors of capacitance

120 μ F

and

240 μ F

Are connected in series. The two are then connected to a source of potential difference

6.0 V

. Calculate the total capacitance of the arrangement.

HARD

Diploma

IMPORTANT

Physics for the IB Diploma 6th Edition>Chapter 11 - Electromagnetic Induction (HL)>Test yourself>Q 27

Two capacitors of capacitance

120 μ F

and

240 μ F

Are connected in series. The two are then connected to a source of potential difference

6.0 V

. Calculate the charge on each capacitor.

HARD

Diploma

IMPORTANT

Physics for the IB Diploma 6th Edition>Chapter 11 - Electromagnetic Induction (HL)>Test yourself>Q 27

Two capacitors of capacitance

120 μ F

and

240 μ F

Are connected in series. The two are then connected to a source of potential difference

6.0 V

. Calculate the energy stored in each capacitor. charge on both capacitor is

480 μ C .

A 9.0V battery is used to charge a 20mF capacitor. Calculate the charge on the capacitor.

Important Questions on Electromagnetic Induction (HL)

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