Solution for the question - when a force is applied on a wire of uniform cross-sectional area 3xx10^(-6)" "m^(2) and length 4 m, the increase in length is 1 mm.

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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 ? $open parentheses straight Y equals 2 cross times 10 to the power of 11 straight N over straight m squared close parentheses$

62.50J
0.177J
0.075J
0.150J

The correct answer is: 0.075J

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

General

physics-

The work per unit volume to stretch the length by 1% of a wire with cross - section area 1 mm² will be..... $open parentheses straight Y equals 9 cross times 10 to the power of 11 straight N over mi to the power of 7 close parentheses$

physics-General

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Can’t find what you’re looking for?

62.50J
0.177J
0.075J
0.150J

The correct answer is: 0.075J

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? $open parentheses straight Y equals 2 cross times 10 to the power of 11 Nm to the power of negative 2 end exponent close parentheses$

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

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

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

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

The work per unit volume to stretch the length by 1% of a wire with cross - section area 1 mm² will be..... $open parentheses straight Y equals 9 cross times 10 to the power of 11 straight N over mi to the power of 7 close parentheses$

The work per unit volume to stretch the length by 1% of a wire with cross - section area 1 mm² will be..... $open parentheses straight Y equals 9 cross times 10 to the power of 11 straight N over mi to the power of 7 close parentheses$

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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 ?

62.50J0.177J0.075J0.150J

The correct answer is: 0.075J

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)

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?

The work per unit volume to stretch the length by 1% of a wire with cross - section area 1 mm2 will be.....

The work per unit volume to stretch the length by 1% of a wire with cross - section area 1 mm2 will be.....

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62.50J
0.177J
0.075J
0.150J

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? $open parentheses straight Y equals 2 cross times 10 to the power of 11 Nm to the power of negative 2 end exponent close parentheses$

The work per unit volume to stretch the length by 1% of a wire with cross - section area 1 mm² will be..... $open parentheses straight Y equals 9 cross times 10 to the power of 11 straight N over mi to the power of 7 close parentheses$

The work per unit volume to stretch the length by 1% of a wire with cross - section area 1 mm² will be..... $open parentheses straight Y equals 9 cross times 10 to the power of 11 straight N over mi to the power of 7 close parentheses$