Maths-

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A random variable X has the probability distribution given below. Its variance is

4/3
5/3
10/3
16/3

The correct answer is: 4/3

$capital sigma P open parentheses X equals x subscript i end subscript close parentheses equals 1 comma V left parenthesis x right parenthesis equals capital sigma x subscript i end subscript superscript 2 end superscript P open parentheses X equals x subscript i end subscript close parentheses minus mu to the power of 2 end exponent$

If the probability distribution of a random variable X is then k =

Maths-General

General

Maths-

If the probability distribution of a random variable X is then second moment about 0 i.e., $blank M subscript 2 end subscript superscript 1 end superscript left parenthesis 0 right parenthesis equals$

Maths-General

General

maths-

X is a random variable with distribution given below Then the value of k and variance are

maths-General

General

maths-

$Lt subscript x not stretchy rightwards arrow 0 end subscript space fraction numerator x times 2 to the power of x minus x over denominator 1 minus cos space x end fraction$

maths-General

General

Maths-

$L t subscript x not stretchy rightwards arrow pi over 2 end subscript fraction numerator sec space x minus tan space x over denominator pi over 2 minus x end fraction$

Maths-General

General

Maths-

$L t subscript x not stretchy rightwards arrow pi over 2 end subscript left square bracket sec space 3 x cos space 5 x right square bracket$

We can only apply the L’Hospital’s rule if the direct substitution returns an indeterminate form, that means 0 over 0 or $fraction numerator plus-or-minus infinity over denominator plus-or-minus infinity end fraction.$

$L t subscript x not stretchy rightwards arrow pi over 2 end subscript left square bracket sec space 3 x cos space 5 x right square bracket$

Maths-General

General

physics-

When the rectangular metal tank is filled to the top with an unknown liquid, as observer with eyes level with the top of the tank can just see the corner E; a ray that refracts towards the observer at the top surface of the liquid is shown. The refractive index of the liquid will be

physics-General

General

physics-

Following figure shows the multiple reflections of a light ray along a glass corridor where the walls are either parallel or perpendicular to one another. If the angle of incidence at point P is 30°, what are the angles of reflection of the light ray at points Q, R, S and T respectively

physics-General

General

physics-

Which of the following ray diagram show physically possible refraction

physics-General

General

physics-

A water drop in air refractes the light ray as

physics-General

General

physics-

A small fish 0.4 m below the surface of a lake, is viewed through a simple converging lens of focal length 3 m. The lens is kept at 0.2 m above the water surface such that fish lies on the optical axis of the lens. The image of the fish seen by observer will be at $open parentheses mu subscript w a t e r end subscript equals fraction numerator 4 over denominator 3 end fraction close parentheses$

physics-General

General

physics-

In a thin spherical fish bowl of radius 10 cm filled with water of refractive index 4/3 there is a small fish at a distance of 4 cm from the centre C as shown in figure. Where will the image of fish appears, if seen from E

physics-General

General

physics-

An object is placed at a point distant x from the focus of a convex lens and its image is formed at I as shown in the figure. The distances x, x' satisfy the relation

physics-General

General

physics-

Three lenses $L subscript 1 end subscript comma L subscript 2 end subscript comma L subscript 3 end subscript$ are placed co-axially as shown in figure. Focal length's of lenses are given 30 cm, 10 cm and 5 cm respectively. If a parallel beam of light falling on lens $L subscript 1 end subscript$ , emerging $L subscript 3 end subscript$ as a convergent beam such that it converges at the focus of $L subscript 3 end subscript$ . Distance between $L subscript 1 end subscript$ and $L subscript 2 end subscript$ will be

physics-General

General

physics-

for a gas is 5/3 An ideal gas at $27 to the power of ring operator end exponent C$ is compressed adiabatically to 8/27 of its original volume The rise in temperature of the gas is

physics-General

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A random variable X has the probability distribution given below. Its variance is

4/3 5/3 10/3 16/3

The correct answer is: 4/3

Related Questions to study

If the probability distribution of a random variable X is then k =

If the probability distribution of a random variable X is then k =

If the probability distribution of a random variable X is then second moment about 0 i.e.,

If the probability distribution of a random variable X is then second moment about 0 i.e.,

X is a random variable with distribution given below Then the value of k and variance are

X is a random variable with distribution given below Then the value of k and variance are

When the rectangular metal tank is filled to the top with an unknown liquid, as observer with eyes level with the top of the tank can just see the corner E; a ray that refracts towards the observer at the top surface of the liquid is shown. The refractive index of the liquid will be

When the rectangular metal tank is filled to the top with an unknown liquid, as observer with eyes level with the top of the tank can just see the corner E; a ray that refracts towards the observer at the top surface of the liquid is shown. The refractive index of the liquid will be

Following figure shows the multiple reflections of a light ray along a glass corridor where the walls are either parallel or perpendicular to one another. If the angle of incidence at point P is 30°, what are the angles of reflection of the light ray at points Q, R, S and T respectively

Following figure shows the multiple reflections of a light ray along a glass corridor where the walls are either parallel or perpendicular to one another. If the angle of incidence at point P is 30°, what are the angles of reflection of the light ray at points Q, R, S and T respectively

Which of the following ray diagram show physically possible refraction

Which of the following ray diagram show physically possible refraction

A water drop in air refractes the light ray as

A water drop in air refractes the light ray as

A small fish 0.4 m below the surface of a lake, is viewed through a simple converging lens of focal length 3 m. The lens is kept at 0.2 m above the water surface such that fish lies on the optical axis of the lens. The image of the fish seen by observer will be at

A small fish 0.4 m below the surface of a lake, is viewed through a simple converging lens of focal length 3 m. The lens is kept at 0.2 m above the water surface such that fish lies on the optical axis of the lens. The image of the fish seen by observer will be at

In a thin spherical fish bowl of radius 10 cm filled with water of refractive index 4/3 there is a small fish at a distance of 4 cm from the centre C as shown in figure. Where will the image of fish appears, if seen from E

In a thin spherical fish bowl of radius 10 cm filled with water of refractive index 4/3 there is a small fish at a distance of 4 cm from the centre C as shown in figure. Where will the image of fish appears, if seen from E

An object is placed at a point distant x from the focus of a convex lens and its image is formed at I as shown in the figure. The distances x, x' satisfy the relation

An object is placed at a point distant x from the focus of a convex lens and its image is formed at I as shown in the figure. The distances x, x' satisfy the relation

Three lenses are placed co-axially as shown in figure. Focal length's of lenses are given 30 cm, 10 cm and 5 cm respectively. If a parallel beam of light falling on lens , emerging as a convergent beam such that it converges at the focus of . Distance between and will be

Three lenses are placed co-axially as shown in figure. Focal length's of lenses are given 30 cm, 10 cm and 5 cm respectively. If a parallel beam of light falling on lens , emerging as a convergent beam such that it converges at the focus of . Distance between and will be

for a gas is 5/3 An ideal gas at is compressed adiabatically to 8/27 of its original volume The rise in temperature of the gas is

for a gas is 5/3 An ideal gas at is compressed adiabatically to 8/27 of its original volume The rise in temperature of the gas is

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4/3
5/3
10/3
16/3

If the probability distribution of a random variable X is then second moment about 0 i.e., $blank M subscript 2 end subscript superscript 1 end superscript left parenthesis 0 right parenthesis equals$

If the probability distribution of a random variable X is then second moment about 0 i.e., $blank M subscript 2 end subscript superscript 1 end superscript left parenthesis 0 right parenthesis equals$

for a gas is 5/3 An ideal gas at $27 to the power of ring operator end exponent C$ is compressed adiabatically to 8/27 of its original volume The rise in temperature of the gas is

for a gas is 5/3 An ideal gas at $27 to the power of ring operator end exponent C$ is compressed adiabatically to 8/27 of its original volume The rise in temperature of the gas is