Have a query? Ask a Tutor!!

Access to best educators and exclusive paper discussions

Offsite Campus Turito Championship

Can’t find what you’re looking for?

Our tutors are from top schools around the world, and they are waiting for you 24/7, anytime, anywhere.

Homework- One to One Solutions
Understand concepts to solve better
Get your doubts solved instantly

Physics-

General

Easy

Question

In the given circuit the current flowing through the resistance 20 ohms is 0.3 ampere while the ammeter reads 0.8 ampere. What is the value of R₁?

30 ohms
40 ohms
50 ohms
60 ohms

The correct answer is: 60 ohms

Related Questions to study

ABCD is a square where each side is a uniform wire of resistance 1 $capital omega$ . A point E lies on CD such that if a uniform wire of resistance 1 $capital omega$ is connected across AE and constant potential difference is applied across A and C then B and E are equipotential.

ABCD is a square where each side is a uniform wire of resistance 1 $capital omega$ . A point E lies on CD such that if a uniform wire of resistance 1 $capital omega$ is connected across AE and constant potential difference is applied across A and C then B and E are equipotential.

physics-General

Consider an infinte ladder network shown in figure. A voltage V is applied between the points A and B. This applied value of voltage is halved after each section.

Consider an infinte ladder network shown in figure. A voltage V is applied between the points A and B. This applied value of voltage is halved after each section.

physics-General

The resistance of all the wires between any two adjacent dots is R. Then equivalent resistance between A and B as shown in figure is :

The resistance of all the wires between any two adjacent dots is R. Then equivalent resistance between A and B as shown in figure is :

physics-General

parallel

Resistances R₁ and R₂ each 60 $capital omega$ are connected in series as shown in figure. The Potential difference between A and B is kept 120 volt. Then what will be the reading of voltmeter connected between the point C & D if resistance of voltmeter is 120 $capital omega$

Resistances R₁ and R₂ each 60 $capital omega$ are connected in series as shown in figure. The Potential difference between A and B is kept 120 volt. Then what will be the reading of voltmeter connected between the point C & D if resistance of voltmeter is 120 $capital omega$

physics-General

Two current elements P and Q have current voltage characteristics as shown below :

Which of the graphs given below represents current voltage characteristics when P and Q are in series.

Two current elements P and Q have current voltage characteristics as shown below :

Which of the graphs given below represents current voltage characteristics when P and Q are in series.

physics-General

The battery in the diagram is to be charged by the generator G. The generator has a terminal voltage of 120 volts when the charging current is10 amperes. The battery has an emf of 100 volts and an internal resistance of 1 ohm. In order to charge the battery at 10 amperes charging current, the resistance R should be set at

The battery in the diagram is to be charged by the generator G. The generator has a terminal voltage of 120 volts when the charging current is10 amperes. The battery has an emf of 100 volts and an internal resistance of 1 ohm. In order to charge the battery at 10 amperes charging current, the resistance R should be set at

physics-General

parallel

Two batteries one of the emf 3V, internal resistance 1 ohm and the other of emf 15 V, internal resistance 2 ohm are connected in series with a resistance R as shown. If the potential difference between a and b is zero the resistance of R in ohm is

Two batteries one of the emf 3V, internal resistance 1 ohm and the other of emf 15 V, internal resistance 2 ohm are connected in series with a resistance R as shown. If the potential difference between a and b is zero the resistance of R in ohm is

physics-General

In the network shown the potential difference between A and B is $open parentheses R equals r subscript 1 end subscript equals r subscript 2 end subscript equals r subscript 3 end subscript equals 1 capital omega comma E subscript 1 end subscript equals 3 V comma E subscript 2 end subscript equals 2 V comma E subscript 3 end subscript equals 1 V close parentheses$

In the network shown the potential difference between A and B is $open parentheses R equals r subscript 1 end subscript equals r subscript 2 end subscript equals r subscript 3 end subscript equals 1 capital omega comma E subscript 1 end subscript equals 3 V comma E subscript 2 end subscript equals 2 V comma E subscript 3 end subscript equals 1 V close parentheses$

physics-General

A circuit is comprised of eight identical batteries and a resistor R = 0.8 $capital omega$ . Each battery has an emf of 1.0 V and internal resistance of 0.2 $capital omega$ . The voltage difference across any of the battery is

A circuit is comprised of eight identical batteries and a resistor R = 0.8 $capital omega$ . Each battery has an emf of 1.0 V and internal resistance of 0.2 $capital omega$ . The voltage difference across any of the battery is

physics-General

parallel

In the figure shown, battery 1 has emf = 6 V and internal resistance = 1 $capital omega$ . Battery 2 has emf = 2V and internal resistance = 3 $capital omega$ . The wires have negligible resistance. What is the potential difference across the terminals of battery 2 ?

In the figure shown, battery 1 has emf = 6 V and internal resistance = 1 $capital omega$ . Battery 2 has emf = 2V and internal resistance = 3 $capital omega$ . The wires have negligible resistance. What is the potential difference across the terminals of battery 2 ?

physics-General

Under what condition current passing through the resistance R can be increased by short circuiting the battery of emf E₂. The internal resistances of the two batteries are r₁ and r₂ respectively

Under what condition current passing through the resistance R can be increased by short circuiting the battery of emf E₂. The internal resistances of the two batteries are r₁ and r₂ respectively

physics-General

The maximum energy is stored in the capacitor of

The maximum energy is stored in the capacitor of

physics-General

parallel

In the circuit shown, the cell is ideal, with emf = 15 V. Each resistance is of $3 capital omega$ . The potential difference across the capacitor is

In the circuit shown, the cell is ideal, with emf = 15 V. Each resistance is of $3 capital omega$ . The potential difference across the capacitor is

physics-General

A charged capacitor is allowed to discharge through a resistor by closing the key at the instant t =0. At the instant t = (ln 4) ms, the reading of the ammeter falls half the initial value. The resistance of the ammeter is equal to

A charged capacitor is allowed to discharge through a resistor by closing the key at the instant t =0. At the instant t = (ln 4) ms, the reading of the ammeter falls half the initial value. The resistance of the ammeter is equal to

physics-General

In the R–C circuit shown in the figure the total energy of 3.6 ×10^–3 J is dissipated in the 10 W resistor when the switch S is closed. The initial charge on the capacitor is

In the R–C circuit shown in the figure the total energy of 3.6 ×10^–3 J is dissipated in the 10 W resistor when the switch S is closed. The initial charge on the capacitor is

physics-General

parallel

card img

With Turito Academy.

card img

With Turito Foundation.

card img

Get an Expert Advice From Turito.

Turito Academy

card img

With Turito Academy.

Test Prep

card img

With Turito Foundation.