Bernoulli's Principle and Its Applications

A non-spinning ball is not subjected to the Magnus effect. This Magnus effect is equivalent to : 

Which of the following forces are acting on a non-spinning ball during its flight:

Describe the motion of a ball without spin .

What is the largest average velocity of blood flow in an artery of radius $2\times {10}^{-3}\mathrm{m}$, if the flow must remain laminar?( density of blood =$1.06\times {10}^3 \mathrm{kg}/{\mathrm{m}}^3$ and viscosity=$2.084\times {10}^3\mathrm{Pa}$.

What is pressure energy? Derive an expression for this.

A ball moving without spinning in air than particles of air becomes stationary after large distance why?

Motion of ball without spin in air follow the path

If pressure on the ball at the top be ${\mathrm{P}}_{\mathrm{T}}$ and bottom be ${\mathrm{P}}_{\mathrm{B}}$ then for ball moving without spin 

How a ball without spin in air?

Explain the reason behind blowing off of the roof top in case of wind storm.

Blowing-off of Rooftop in Wind Storm is a result of Bernoulli's theorem.

The motion of spin ball in air must face an upward force on it by air.

When the moves with spin in air then at its top and bottom part pressures are represented by ${\mathrm{P}}_{\mathrm{T}}$ and ${\mathrm{P}}_{\mathrm{L}}$ respectively then which of the following are correct.

Motion of ball with spin in air follow the path

How a ball moves with spin in air !

Potential energy term of Bernoulli's equation is not considered for its application in:

The potential energy term in Bernoulli's equation is present due to:

Write the conditions under which the Bernoulli's principle is applicable.

Small-size Venturimeter are made of brass, glass, or bronze.

Mention two applications of Bernoulli's theorem