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Physics-

General

Easy

Question

What will be the equivalent resistance between the two points A and D ?

10 $Ω$
20 $Ω$
30 $Ω$
40 $Ω$

The correct answer is: 30 $capital omega$

Related Questions to study

In the circuit diagram shown below, the magnitude and direction of the flow of current respectively would be:

In the circuit diagram shown below, the magnitude and direction of the flow of current respectively would be:

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In the given current distribution, what is the value of I ?

In the given current distribution, what is the value of I ?

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The current in the branch CD in the circuit shown below will be :

The current in the branch CD in the circuit shown below will be :

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In the following figure, the reading of the ammeter A, when the internal resistance of the battery is zero is :

In the following figure, the reading of the ammeter A, when the internal resistance of the battery is zero is :

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Electric current is generated by :

Electric current is generated by :

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A network of four capacitors of capacity equal to C₁ = C, C₂ =2C, C₃ = 3C and C₄ = 4C are conducted in a battery as shown in the figure. The ratio of the charges on C₂ and C₄ is :

A network of four capacitors of capacity equal to C₁ = C, C₂ =2C, C₃ = 3C and C₄ = 4C are conducted in a battery as shown in the figure. The ratio of the charges on C₂ and C₄ is :

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A finite ladder is constructed by connecting several sections of 2 $mu F$ , 4 $mu F$ capacitor combinations as shown in figure. It is terminated by a capacitor of capacitance C. What value should be chosen for C such that the equivalent capacitance of the ladder between the points A and B becomes independent of the number of sections in between.

A finite ladder is constructed by connecting several sections of 2 $mu F$ , 4 $mu F$ capacitor combinations as shown in figure. It is terminated by a capacitor of capacitance C. What value should be chosen for C such that the equivalent capacitance of the ladder between the points A and B becomes independent of the number of sections in between.

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A capacitor of capacity C₁ is charged upto V volt and then connected to an uncharged capacitor of capacity C₂ Then final potential difference across each will be

A capacitor of capacity C₁ is charged upto V volt and then connected to an uncharged capacitor of capacity C₂ Then final potential difference across each will be

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The charge on any one of the 2 $mu F$ capacitors and 1 $mu F$ capacitor will be given respectively (in $mu C$ ) as.

The charge on any one of the 2 $mu F$ capacitors and 1 $mu F$ capacitor will be given respectively (in $mu C$ ) as.

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The combination of capacitors with C₁=3 $mu F$ , C₂=4 $mu F$ and C₃=2 $mu F$ is charged by connecting AB to a battery. Consider the following statements
I) Energy stored in C₁ = Energy stored in C₂ + Energy stored in C₃
II) Charge on C₁ = Charge on C₂ + Charge on C₃
III) Potential drop across C₁ = Potential drop across C₂ = Potential drop across C₃
Which of these is/are correct

The combination of capacitors with C₁=3 $mu F$ , C₂=4 $mu F$ and C₃=2 $mu F$ is charged by connecting AB to a battery. Consider the following statements
I) Energy stored in C₁ = Energy stored in C₂ + Energy stored in C₃
II) Charge on C₁ = Charge on C₂ + Charge on C₃
III) Potential drop across C₁ = Potential drop across C₂ = Potential drop across C₃
Which of these is/are correct

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Consider a parallel plate capacitor of 10 $mu F$ (micro-farad) with air filled in the gap between the plates. Now one half of the space between the plates is filled with a dielectric of dielectric constant 4, as shown in the figure. The capacity of the capacitor changes to.

Consider a parallel plate capacitor of 10 $mu F$ (micro-farad) with air filled in the gap between the plates. Now one half of the space between the plates is filled with a dielectric of dielectric constant 4, as shown in the figure. The capacity of the capacitor changes to.

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Three capacitors of capacitance 3 $mu F$ , 10 $mu F$ and 15 $mu F$ are connected in series to a voltage source of 100V. The charge on 15mF is :

Three capacitors of capacitance 3 $mu F$ , 10 $mu F$ and 15 $mu F$ are connected in series to a voltage source of 100V. The charge on 15mF is :

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In the figure, three capacitors each of capacitance of 6pF are connected in series. The total capacitance of the combination will be:

In the figure, three capacitors each of capacitance of 6pF are connected in series. The total capacitance of the combination will be:

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What is effective capacitance between points X and Y

What is effective capacitance between points X and Y

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In the circuit in the figure, the potential difference across the 4.5 $mu F$ capacitor is :

In the circuit in the figure, the potential difference across the 4.5 $mu F$ capacitor is :

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