Maths-
General
Easy
Question
Area of the region bounded by tangent drawn to the curve at and the axis is
The correct answer is:
Related Questions to study
Maths-
Maximum value of , when , is
Maximum value of , when , is
Maths-General
Maths-
If x = t, y = , then
If x = t, y = , then
Maths-General
Physics-
Two capacitors and in series, are connected in parallel to a third capacitor . This arrangement is then connected to a battery of e.m.f. = 2V, as shown in the figure. How much energy is lost by the battery in charging the capacitors
Two capacitors and in series, are connected in parallel to a third capacitor . This arrangement is then connected to a battery of e.m.f. = 2V, as shown in the figure. How much energy is lost by the battery in charging the capacitors
Physics-General
Physics-
The combination of capacitors with and is charged by connecting AB to a battery. Consider the following statements
I. Energy stored in = Energy stored in + Energy stored in
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 and is charged by connecting AB to a battery. Consider the following statements
I. Energy stored in = Energy stored in + Energy stored in
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
Physics-General
Physics-
Consider a parallel plate capacitor of (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 (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
Physics-General
Physics-
In the figure a capacitor is filled with dielectrics. The resultant capacitance is
In the figure a capacitor is filled with dielectrics. The resultant capacitance is
Physics-General
Physics-
Equivalent capacitance between A and B is
Equivalent capacitance between A and B is
Physics-General
Physics-
In the figure, three capacitors each of capacitance 6 are connected in series. The total capacitance of the combination will be
In the figure, three capacitors each of capacitance 6 are connected in series. The total capacitance of the combination will be
Physics-General
Physics-
Two capacitors A and B are connected in series with a battery as shown in the figure. When the switch S is closed and the two capacitors get charged fully, then
Two capacitors A and B are connected in series with a battery as shown in the figure. When the switch S is closed and the two capacitors get charged fully, then
Physics-General
Physics-
A parallel plate capacitor of area A, plate separation d and capacitance C is filled with three different dielectric materials having dielectric constants and as shown. If a single dielectric material is to be used to have the same capacitance C in this capacitor, then its dielectric constant k is given by
A parallel plate capacitor of area A, plate separation d and capacitance C is filled with three different dielectric materials having dielectric constants and as shown. If a single dielectric material is to be used to have the same capacitance C in this capacitor, then its dielectric constant k is given by
Physics-General
Physics-
In the circuit here, the steady state voltage across capacitor C is a fraction of the battery e.m.f. The fraction is decided by
In the circuit here, the steady state voltage across capacitor C is a fraction of the battery e.m.f. The fraction is decided by
Physics-General
Physics-
What is the effective capacitance between A and B in the following figure
What is the effective capacitance between A and B in the following figure
Physics-General
Physics-
In the circuit shown in figure, each capacitor has a capacity of . The equivalent capacity between A and B is
In the circuit shown in figure, each capacitor has a capacity of . The equivalent capacity between A and B is
Physics-General
Physics-
The capacitance between the points A and B in the given circuit will be
The capacitance between the points A and B in the given circuit will be
Physics-General
Physics-
The equivalent capacitance between A and B is
The equivalent capacitance between A and B is
Physics-General