Maths-

General

Easy

Question

$text If end text L t subscript x not stretchy rightwards arrow straight infinity end subscript open parentheses 1 plus a over x plus b over x squared close parentheses to the power of 2 x end exponent equals e squared$ then the values of a and b are

$a \in R, b \in R$
α=1 and b=2
$a \in R, b = 2$
$a = 1, b \in R$

hint Hint:

Infinite limits in calculus occur when the function is unbounded and tends toward infinity or negative infinity as x approaches a given value. In this question, we have to find value of a and b $text If end text L t subscript x not stretchy rightwards arrow straight infinity end subscript open parentheses 1 plus a over x plus b over x squared close parentheses to the power of 2 x end exponent equals e squared$ .

The correct answer is: $a equals 1 comma b element of R$

$L t subscript x not stretchy rightwards arrow straight infinity end subscript open parentheses 1 plus a over x plus b over x squared close parentheses to the power of 2 x end exponent equals e squared$
$A l w a y s space r e m e m b e r space L t subscript x not stretchy rightwards arrow straight infinity end subscript f left parenthesis x right parenthesis equals 1 space & space L t subscript x not stretchy rightwards arrow straight infinity end subscript g left parenthesis x right parenthesis equals infinity space o r space d i r e c t l y space w e space c a n bold space bold 1 to the power of bold infinity bold space bold italic f bold italic o bold italic r bold italic m space t h e n comma L t subscript x not stretchy rightwards arrow straight infinity end subscript f left parenthesis x right parenthesis to the power of g left parenthesis x right parenthesis end exponent space equals e to the power of L t subscript x rightwards arrow infinity end subscript open parentheses f minus 1 close parentheses g end exponent$
$S o space w e space c a n space w r i t e space L t subscript x not stretchy rightwards arrow straight infinity end subscript open parentheses 1 plus a over x plus b over x squared close parentheses to the power of 2 x end exponent equals e to the power of L t subscript x rightwards arrow infinity end subscript left parenthesis space 1 plus a over x plus b over x squared minus 1 right parenthesis cross times 2 x end exponent$
$e to the power of L t subscript x rightwards arrow infinity end subscript left parenthesis space 1 plus a over x plus b over x squared minus 1 right parenthesis cross times 2 x end exponent space equals space e squared$
$e to the power of L t subscript x rightwards arrow infinity end subscript left parenthesis space a plus b over x right parenthesis cross times 2 end exponent space equals space e squared$
or, a = 2 and b can have any value means b belongs to real number.

When a force is applied on a wire of uniform cross-sectional area $3 cross times 10 to the power of negative 6 end exponent straight m squared$ and length 4 m, the increase in length is 1 mm. what will be energy stored in it ? $open parentheses straight Y equals 2 cross times 10 to the power of 11 straight N over straight m squared close parentheses$

physics-General

General

physics-

On stretching a wire what is the elastic energy stored per unit volume?

physics-General

General

physics-

The dot in figure represents the initial state of a gas An adiabat divides the p-V diagram into regions 1 and 2 as shown As the gas moves down along the adiabatic, the temperature

physics-General

General

physics-

The dot in figure represents the initial state of a gas An adiabat divides the p-V diagram into regions 1 and 2 as shown For which of the following processes, the corresponding heat supplied to the system Q is positive

physics-General

General

physics-

Two cylinder A and B having piston connected by massless rod (as shown in figure) The cross-sectional area of two cylinders are same & equal to ‘S’ The cylinder A contains m gm of an ideal gas at Pressure P & temperature $T subscript 0 end subscript$ The cylinder B contain identical gas at same temperature $T subscript 0 end subscript$ but has different mass The piston is held at the state in the position so that volume of gas in cylinder A & cylinder B are same & is equal to V₀ The walls & piston of cylinder A are thermally insulated, where as cylinder B is maintained at temperature $T subscript 0 end subscript blank$ The whole system is in vacuum Now the piston is slowly released and it moves towards left & mechanical equilibrium is reached at the state when the volume of gas in cylinder A becomes $fraction numerator V subscript 0 end subscript over denominator 2 end fraction$ Then (here g for gas = 1.5) What will be the compressive force in connecting rod at equilibrium

physics-General

General

physics-

Two cylinder A and B having piston connected by massless rod (as shown in figure) The cross-sectional area of two cylinders are same & equal to ‘S’ The cylinder A contains m gm of an ideal gas at Pressure P & temperature $T subscript 0 end subscript$ The cylinder B contain identical gas at same temperature $T subscript 0 end subscript$ but has different mass The piston is held at the state in the position so that volume of gas in cylinder A & cylinder B are same & is equal to V₀ The walls & piston of cylinder A are thermally insulated, where as cylinder B is maintained at temperature $T subscript 0 end subscript blank$ The whole system is in vacuum Now the piston is slowly released and it moves towards left & mechanical equilibrium is reached at the state when the volume of gas in cylinder A becomes $fraction numerator V subscript 0 end subscript over denominator 2 end fraction$ Then (here g for gas = 1.5) If work done by the gas in cylinder B is W_B & work done by the gas in cylinder A is W_A then

physics-General

General

physics-

Two cylinder A and B having piston connected by massless rod (as shown in figure) The cross-sectional area of two cylinders are same & equal to ‘S’ The cylinder A contains m gm of an ideal gas at Pressure P & temperature $T subscript 0 end subscript$ The cylinder B contain identical gas at same temperature $T subscript 0 end subscript$ but has different mass The piston is held at the state in the position so that volume of gas in cylinder A & cylinder B are same & is equal to V₀ The walls & piston of cylinder A are thermally insulated, where as cylinder B is maintained at temperature $T subscript 0 end subscript blank$ The whole system is in vacuum Now the piston is slowly released and it moves towards left & mechanical equilibrium is reached at the state when the volume of gas in cylinder A becomes $fraction numerator V subscript 0 end subscript over denominator 2 end fraction$ Then (here g for gas = 1.5) The change in internal energy of gas in cylinder A

physics-General

General

physics-

Two cylinder A and B having piston connected by massless rod (as shown in figure) The cross-sectional area of two cylinders are same & equal to ‘S’ The cylinder A contains m gm of an ideal gas at Pressure P & temperature $T subscript 0 end subscript$ The cylinder B contain identical gas at same temperature $T subscript 0 end subscript$ but has different mass The piston is held at the state in the position so that volume of gas in cylinder A & cylinder B are same & is equal to V₀ The walls & piston of cylinder A are thermally insulated, where as cylinder B is maintained at temperature $T subscript 0 end subscript blank$ The whole system is in vacuum Now the piston is slowly released and it moves towards left & mechanical equilibrium is reached at the state when the volume of gas in cylinder A becomes $fraction numerator V subscript 0 end subscript over denominator 2 end fraction$ Then (here g for gas = 1.5) The mass of gas in cylinder B

physics-General

General

physics-

If a spring extends by x cm loading then what is the energy stored by the spring ? (If is tension in the spring & K is spring constant)

physics-General

General

Maths-

$Lt subscript x not stretchy rightwards arrow 1 end subscript space fraction numerator left parenthesis 2 x minus 3 right parenthesis left parenthesis square root of x minus 1 right parenthesis over denominator 2 x squared plus x minus 3 end fraction equals$

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

$Lt subscript x not stretchy rightwards arrow 1 end subscript space fraction numerator left parenthesis 2 x minus 3 right parenthesis left parenthesis square root of x minus 1 right parenthesis over denominator 2 x squared plus x minus 3 end fraction equals$

Maths-General

General

maths-

Assertion : A random variable X takes the values 0,1,2. It’s mean is 0.6. If P(X=0) =0.5 then P(X=1) = 0.4
Reason: If X : S $rightwards arrow$ R is a discrete random variable with range $left curly bracket right curly bracket$ 1 2 3 x , x , x ,.... then mean $equals stretchy sum from r equals 1 to infinity of x subscript r end subscript P open parentheses X equals x subscript r end subscript close parentheses$

maths-General

General

Maths-

$Lt subscript x not stretchy rightwards arrow straight infinity end subscript fraction numerator 11 x cubed minus 3 x plus 4 over denominator 13 x cubed minus 5 x squared minus 7 end fraction$

Infinite limits in calculus occur when the function is unbounded and tends toward infinity or negative infinity as x approaches a given value.

$Lt subscript x not stretchy rightwards arrow straight infinity end subscript fraction numerator 11 x cubed minus 3 x plus 4 over denominator 13 x cubed minus 5 x squared minus 7 end fraction$

Maths-General

Infinite limits in calculus occur when the function is unbounded and tends toward infinity or negative infinity as x approaches a given value.

General

physics-

A wire of length 50 cm and cross - sectional area of 1 mm² is extended by 1 mm what will be the required work? $open parentheses straight Y equals 2 cross times 10 to the power of 11 Nm to the power of negative 2 end exponent close parentheses$

physics-General

General

maths-

$Lt subscript x not stretchy rightwards arrow straight infinity end subscript space fraction numerator 8 vertical line x vertical line plus 3 x over denominator 3 vertical line x vertical line minus 2 x end fraction$

maths-General

General

maths-

$Lt subscript x not stretchy rightwards arrow straight infinity end subscript space fraction numerator 2 plus cos squared space x over denominator x plus 2007 end fraction$

maths-General

Have a query? Ask a Tutor!!

Can’t find what you’re looking for?

$text If end text L t subscript x not stretchy rightwards arrow straight infinity end subscript open parentheses 1 plus a over x plus b over x squared close parentheses to the power of 2 x end exponent equals e squared$ then the values of a and b are

$a \in R, b \in R$
α=1 and b=2
$a \in R, b = 2$
$a = 1, b \in R$

The correct answer is: $a equals 1 comma b element of R$

Related Questions to study

On stretching a wire what is the elastic energy stored per unit volume?

On stretching a wire what is the elastic energy stored per unit volume?

The dot in figure represents the initial state of a gas An adiabat divides the p-V diagram into regions 1 and 2 as shown As the gas moves down along the adiabatic, the temperature

The dot in figure represents the initial state of a gas An adiabat divides the p-V diagram into regions 1 and 2 as shown As the gas moves down along the adiabatic, the temperature

The dot in figure represents the initial state of a gas An adiabat divides the p-V diagram into regions 1 and 2 as shown For which of the following processes, the corresponding heat supplied to the system Q is positive

The dot in figure represents the initial state of a gas An adiabat divides the p-V diagram into regions 1 and 2 as shown For which of the following processes, the corresponding heat supplied to the system Q is positive

If a spring extends by x cm loading then what is the energy stored by the spring ? (If is tension in the spring & K is spring constant)

If a spring extends by x cm loading then what is the energy stored by the spring ? (If is tension in the spring & K is spring constant)

$Lt subscript x not stretchy rightwards arrow 1 end subscript space fraction numerator left parenthesis 2 x minus 3 right parenthesis left parenthesis square root of x minus 1 right parenthesis over denominator 2 x squared plus x minus 3 end fraction equals$

$Lt subscript x not stretchy rightwards arrow 1 end subscript space fraction numerator left parenthesis 2 x minus 3 right parenthesis left parenthesis square root of x minus 1 right parenthesis over denominator 2 x squared plus x minus 3 end fraction equals$

$Lt subscript x not stretchy rightwards arrow straight infinity end subscript fraction numerator 11 x cubed minus 3 x plus 4 over denominator 13 x cubed minus 5 x squared minus 7 end fraction$

$Lt subscript x not stretchy rightwards arrow straight infinity end subscript fraction numerator 11 x cubed minus 3 x plus 4 over denominator 13 x cubed minus 5 x squared minus 7 end fraction$

A wire of length 50 cm and cross - sectional area of 1 mm² is extended by 1 mm what will be the required work? $open parentheses straight Y equals 2 cross times 10 to the power of 11 Nm to the power of negative 2 end exponent close parentheses$

A wire of length 50 cm and cross - sectional area of 1 mm² is extended by 1 mm what will be the required work? $open parentheses straight Y equals 2 cross times 10 to the power of 11 Nm to the power of negative 2 end exponent close parentheses$

$Lt subscript x not stretchy rightwards arrow straight infinity end subscript space fraction numerator 8 vertical line x vertical line plus 3 x over denominator 3 vertical line x vertical line minus 2 x end fraction$

$Lt subscript x not stretchy rightwards arrow straight infinity end subscript space fraction numerator 8 vertical line x vertical line plus 3 x over denominator 3 vertical line x vertical line minus 2 x end fraction$

$Lt subscript x not stretchy rightwards arrow straight infinity end subscript space fraction numerator 2 plus cos squared space x over denominator x plus 2007 end fraction$

$Lt subscript x not stretchy rightwards arrow straight infinity end subscript space fraction numerator 2 plus cos squared space x over denominator x plus 2007 end fraction$

With Turito Academy.

With Turito Foundation.

Get an Expert Advice From Turito.

Turito Academy

With Turito Academy.

Test Prep

With Turito Foundation.

Courses

Quick Links

Follow Us at

Support

Download App

Courses

Quick Links

Have a query? Ask a Tutor!!

Can’t find what you’re looking for?

then the values of a and b are

α=1 and b=2

Infinite limits in calculus occur when the function is unbounded and tends toward infinity or negative infinity as x approaches a given value. In this question, we have to find value of a and b .

The correct answer is:

or, a = 2 and b can have any value means b belongs to real number.

Related Questions to study

When a force is applied on a wire of uniform cross-sectional area and length 4 m, the increase in length is 1 mm. what will be energy stored in it ?

When a force is applied on a wire of uniform cross-sectional area and length 4 m, the increase in length is 1 mm. what will be energy stored in it ?

On stretching a wire what is the elastic energy stored per unit volume?

On stretching a wire what is the elastic energy stored per unit volume?

The dot in figure represents the initial state of a gas An adiabat divides the p-V diagram into regions 1 and 2 as shown As the gas moves down along the adiabatic, the temperature

The dot in figure represents the initial state of a gas An adiabat divides the p-V diagram into regions 1 and 2 as shown As the gas moves down along the adiabatic, the temperature

The dot in figure represents the initial state of a gas An adiabat divides the p-V diagram into regions 1 and 2 as shown For which of the following processes, the corresponding heat supplied to the system Q is positive

The dot in figure represents the initial state of a gas An adiabat divides the p-V diagram into regions 1 and 2 as shown For which of the following processes, the corresponding heat supplied to the system Q is positive

If a spring extends by x cm loading then what is the energy stored by the spring ? (If is tension in the spring & K is spring constant)

If a spring extends by x cm loading then what is the energy stored by the spring ? (If is tension in the spring & K is spring constant)

Assertion : A random variable X takes the values 0,1,2. It’s mean is 0.6. If P(X=0) =0.5 then P(X=1) = 0.4Reason: If X : S R is a discrete random variable with range 1 2 3 x , x , x ,.... then mean

Assertion : A random variable X takes the values 0,1,2. It’s mean is 0.6. If P(X=0) =0.5 then P(X=1) = 0.4Reason: If X : S R is a discrete random variable with range 1 2 3 x , x , x ,.... then mean

A wire of length 50 cm and cross - sectional area of 1 mm2 is extended by 1 mm what will be the required work?

A wire of length 50 cm and cross - sectional area of 1 mm2 is extended by 1 mm what will be the required work?

With Turito Academy.

With Turito Foundation.

Get an Expert Advice From Turito.

Turito Academy

With Turito Academy.

Test Prep

With Turito Foundation.

Courses

Quick Links

$text If end text L t subscript x not stretchy rightwards arrow straight infinity end subscript open parentheses 1 plus a over x plus b over x squared close parentheses to the power of 2 x end exponent equals e squared$ then the values of a and b are

$a \in R, b \in R$
α=1 and b=2
$a \in R, b = 2$
$a = 1, b \in R$

The correct answer is: $a equals 1 comma b element of R$

A wire of length 50 cm and cross - sectional area of 1 mm² is extended by 1 mm what will be the required work? $open parentheses straight Y equals 2 cross times 10 to the power of 11 Nm to the power of negative 2 end exponent close parentheses$

A wire of length 50 cm and cross - sectional area of 1 mm² is extended by 1 mm what will be the required work? $open parentheses straight Y equals 2 cross times 10 to the power of 11 Nm to the power of negative 2 end exponent close parentheses$