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If f : R `rightarrow` R is defined by `f(x) = (2x - 7)/4`, show that f(x) is one-one and onto.
Concept: Types of Functions
Statement 1: The intersection of two equivalence relations is always an equivalence relation.
Statement 2: The Union of two equivalence relations is always an equivalence relation.
Which one of the following is correct?
Concept: Types of Relations
If `tan^-1 ((x - 1)/(x + 1)) + tan^-1 ((2x - 1)/(2x + 1)) = tan^-1 (23/36)` = then prove that 24x2 – 23x – 12 = 0
Concept: Properties of Inverse Trigonometric Functions
The value of cosec `[sin^-1((-1)/2)] - sec[cos^-1((-1)/2)]` is equal to ______.
Concept: Properties of Inverse Trigonometric Functions
Solve for x: `sin^-1(x/2) + cos^-1x = π/6`
Concept: Properties of Inverse Trigonometric Functions
If sin–1x + sin–1y + sin–1z = π, show that `x^2 - y^2 - z^2 + 2yzsqrt(1 - x^2) = 0`
Concept: Properties of Inverse Trigonometric Functions
A short electric dipole (which consists of two point charges, +q and -q) is placed at the centre 0 and inside a large cube (ABCDEFGH) of length L, as shown in Figure 1. The electric flux, emanating through the cube is:
a) `q"/"4piin_9L`
b) zero
c) `q"/"2piin_0L`
d) `q"/"3piin_0L`
Concept: Electric Dipole
Derive an expression for the intensity of electric field at a point in broadside position or on [4)
an equatorial line of an electric dipole.
Concept: Electric Dipole
The intensity of the electric field at a perpendicular distance of 0·5 m from an infinitely long line charge having linear charge density (λ) is 3-6 × 103 Vm-1. Find the value of λ.
Concept: Electric Lines of Force
The intensity of the electric field at a point at a perpendicular distance ‘r’ from an infinite line charge, having linear charge density ‘λ’ is given by:
Concept: Electric Field >> Electric Field Intensity Due to a Point-Charge
A charged oil drop weighing 1.6 x 10-15 N is found to remain suspended in a uniform electric field of intensity 2 x 103 Nc-1. Find the charge on the drop.
Concept: Electric Field >> Electric Field Intensity Due to a Point-Charge
Two-point charges Q1 = 400 μC and Q2 = 100 μC are kept fixed, 60 cm apart in a vacuum. Find the intensity of the electric field at the midpoint of the line joining Q1 and Q2.
Concept: Electric Dipole
In an electric dipole, at which point is the electric potential zero ?
Concept: Electric Dipole
In an electric dipole, what is the locus of a point having zero potential?
Concept: Electric Dipole
In case of an infinite line charge, how does intensity of electric field at a point change, if at all, when.
- charge on it is doubled?
- distance of the point is halved?
Concept: Electric Field >> Electric Field Intensity Due to a Point-Charge
What is meant by the statement: "Relative permittivity of water is 81"?
Concept: Coulomb’s Law >> Scalar Form of Coulomb’s Law
A closed surface in vacuum encloses charges –q and +3q. The total electric flux emerging out of the surface is :
Concept: Applications of Gauss' Theorem > Electric Field due to a Point Charge
A hollow sphere of radius R has a point charge Q at its centre. Electric flux emanating from it is `phi`. If both the charge and the radius of the sphere are doubled, electric flux emanating from the sphere will ______.
Concept: Electric Flux
A hollow sphere of radius R has a point charge q at its centre. Electric flux emanating from the sphere is X. How will the electric flux change, if at all, when radius of the sphere is doubled?
Concept: Electric Flux
A hollow sphere of radius R has a point charge q at its centre. Electric flux emanating from the sphere is X. How will the electric flux change, if at all, when charge q is replaced by an electric dipole?
Concept: Electric Flux
