Calculate the approximate force on a square meter (1.00 m3) of sail, given the horizontal velocity of the wind is 6.00 m/s parallel to its front surface and 3.50 m/s along its back surface. Take the density of air to be 1.29 kg/m3. (The calculation, based on Bernoulli's principle, is only approximate due to the effects of turbulence.) Remember, F = (P2 - P1) ∙A

Question

Physics

Keenan Cobb

11 June, 08:50

Calculate the approximate force on a square meter (1.00 m3) of sail, given the horizontal velocity of the wind is 6.00 m/s parallel to its front surface and 3.50 m/s along its back surface. Take the density of air to be 1.29 kg/m3. (The calculation, based on Bernoulli's principle, is only approximate due to the effects of turbulence.) Remember, F = (P2 - P1) ∙A

+1

Answers (1)

Know the Answer?

Alma Campos · Answer 1

The force exerted on square meter of cubic sail is F = 15.3 N

Explanation:

Given:-

- The face area of cubic sail, A = 1 m^2

- The velocity at frontal face, v1 = 6.0 m/s

- The velocity at back face, v2 = 3.5 m/s

- The density of air. ρ = 1.29 kg/m^3

Find:-

Calculate the approximate force on a square meter (1.00 m3) of sail

Solution:-

- We will apply the Bernoulli's equation to the flow of air around the cubic sail. Assuming that elevation changes are negligible. The constant elevation Bernoulli's equation is:

P1 + ρ*v1^2 / 2 = P2 + ρ*v2^2 / 2

- The force (F) applied by any fluid is given by:

F = (P2 - P1) * A

- Re-arranging bernoulli's expression:

P2 - P1 = ρ / 2 [ v2^2 - v1^2 ]

- Multiple the equation by area A:

A*[P2 - P1] = A*ρ / 2 [ v1^2 - v2^2 ]

F = A*ρ / 2 [ v1^2 - v2^2 ]

- Plug in the values:

F = (1) * (1.29/2) * [ 6^2 - 3.5^2 ]

F = 15.3 N