Class 11 Physics Fluid Mechanics and Surface Tension Bernoulli's Theorem and Applications of Bernoulli's Theory

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State Bernoulli's principle in words.

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(N/A) Bernoulli's principle states that for an incompressible,non-viscous,and streamline flow of a fluid,the sum of pressure energy $(P)$,kinetic energy per unit volume $\left(\frac{1}{2}\rho v^{2}\right)$,and potential energy per unit volume $(\rho gh)$ remains constant at all points along a streamline.
Mathematically,this is expressed as: $P + \frac{1}{2}\rho v^{2} + \rho gh = \text{constant}$.

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Class 11 Questions

Class 11

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Fluid Mechanics and Surface Tension

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Bernoulli's Theorem and Applications of Bernoulli's Theory

At a hydroelectric power plant,the water pressure head is at a height of $300\; m$ and the water flow available is $100\; m^{3} s^{-1}.$ If the turbine generator efficiency is $60\%,$ estimate the electric power available from the plant (in $MW$) $\left(g=9.8\; m s^{-2}\right).$

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What type of fluid can be applied in Bernoulli's equation?

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Which of the following is not an assumption for an ideal fluid flow for which Bernoulli's principle is valid?

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The speeds of air above and below the wing of an airplane are $120\, m/s$ and $90\, m/s$,respectively. The density of air is $1.3\, kg/m^3$. If the wing has a length of $10\, m$ and a width of $2\, m$,the pressure difference between the top and bottom of the wing is ......... $Pascal$.

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Water is flowing with a velocity of $2 \ m/s$ in a horizontal pipe where the cross-sectional area is $2 \times 10^{-2} \ m^2$ at a pressure of $4 \times 10^4 \ Pa$. The pressure at a cross-section of area $0.01 \ m^2$ in Pascal will be:

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State Bernoulli's principle in words.

Similar Questions

At a hydroelectric power plant,the water pressure head is at a height of $300\; m$ and the water flow available is $100\; m^{3} s^{-1}.$ If the turbine generator efficiency is $60\%,$ estimate the electric power available from the plant (in $MW$) $\left(g=9.8\; m s^{-2}\right).$

What type of fluid can be applied in Bernoulli's equation?

Which of the following is not an assumption for an ideal fluid flow for which Bernoulli's principle is valid?

The speeds of air above and below the wing of an airplane are $120\, m/s$ and $90\, m/s$,respectively. The density of air is $1.3\, kg/m^3$. If the wing has a length of $10\, m$ and a width of $2\, m$,the pressure difference between the top and bottom of the wing is ......... $Pascal$.

Water is flowing with a velocity of $2 \ m/s$ in a horizontal pipe where the cross-sectional area is $2 \times 10^{-2} \ m^2$ at a pressure of $4 \times 10^4 \ Pa$. The pressure at a cross-section of area $0.01 \ m^2$ in Pascal will be:

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