a) To find the width of triangle at depth y is f ( y ) = y 2 .

Question

Let a = (-4, 5, 4) and 6 = (1,0, -1). Find the angle between the vector 1) The exact angle is cos 2) The approximation in radians is

Answer 1

Question

Chapter 8.3, Problem 4E

To determine

a)

To find the width of triangle at depth $y$ is $f (y) = \frac{y}{2} .$

To determine

b)

To find out the thin strip of thickness $Δ y$ at depth $y$ .Explain why the fluid force on a side of this strip is approximation equal to $ρ g \frac{1}{2} y^{2} Δ y$

To determine

c)

To find out an approximation for the total fluid force $F$ on a side of the plate as a Riemann sum and indicate the integral to which it converges.

To determine

d)

To calculate $F$ .

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Answer 2

Question

Chapter 8.3, Problem 4E

To determine

a)

To find the width of triangle at depth $y$ is $f (y) = \frac{y}{2} .$

To determine

b)

To find out the thin strip of thickness $Δ y$ at depth $y$ .Explain why the fluid force on a side of this strip is approximation equal to $ρ g \frac{1}{2} y^{2} Δ y$

To determine

c)

To find out an approximation for the total fluid force $F$ on a side of the plate as a Riemann sum and indicate the integral to which it converges.

To determine

d)

To calculate $F$ .

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Answer 3

Question

Chapter 8.3, Problem 4E

To determine

a)

To find the width of triangle at depth $y$ is $f (y) = \frac{y}{2} .$

To determine

b)

To find out the thin strip of thickness $Δ y$ at depth $y$ .Explain why the fluid force on a side of this strip is approximation equal to $ρ g \frac{1}{2} y^{2} Δ y$

To determine

c)

To find out an approximation for the total fluid force $F$ on a side of the plate as a Riemann sum and indicate the integral to which it converges.

To determine

d)

To calculate $F$ .

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Answer 4

Question

Chapter 8.3, Problem 4E

To determine

a)

To find the width of triangle at depth $y$ is $f (y) = \frac{y}{2} .$

To determine

b)

To find out the thin strip of thickness $Δ y$ at depth $y$ .Explain why the fluid force on a side of this strip is approximation equal to $ρ g \frac{1}{2} y^{2} Δ y$

To determine

c)

To find out an approximation for the total fluid force $F$ on a side of the plate as a Riemann sum and indicate the integral to which it converges.

To determine

d)

To calculate $F$ .

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Answer 5

Chapter 8.3, Problem 4E

To determine

a)

To find the width of triangle at depth $y$ is $f (y) = \frac{y}{2} .$

To determine

b)

To find out the thin strip of thickness $Δ y$ at depth $y$ .Explain why the fluid force on a side of this strip is approximation equal to $ρ g \frac{1}{2} y^{2} Δ y$

To determine

c)

To find out an approximation for the total fluid force $F$ on a side of the plate as a Riemann sum and indicate the integral to which it converges.

To determine

d)

To calculate $F$ .

Answer 6

Chapter 8.3, Problem 4E

To determine

a)

To find the width of triangle at depth $y$ is $f (y) = \frac{y}{2} .$

Answer 7

Chapter 8.3, Problem 4E

To determine

a)

To find the width of triangle at depth $y$ is $f (y) = \frac{y}{2} .$

Answer 8

To determine

b)

To find out the thin strip of thickness $Δ y$ at depth $y$ .Explain why the fluid force on a side of this strip is approximation equal to $ρ g \frac{1}{2} y^{2} Δ y$

Answer 9

To determine

b)

To find out the thin strip of thickness $Δ y$ at depth $y$ .Explain why the fluid force on a side of this strip is approximation equal to $ρ g \frac{1}{2} y^{2} Δ y$

Answer 10

To determine

c)

To find out an approximation for the total fluid force $F$ on a side of the plate as a Riemann sum and indicate the integral to which it converges.

Answer 11

To determine

c)

To find out an approximation for the total fluid force $F$ on a side of the plate as a Riemann sum and indicate the integral to which it converges.

Answer 12

To determine

d)

To calculate $F$ .

Answer 13

To determine

d)

To calculate $F$ .

Answer 14

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Ch. 8.1 - Prob. 1PQ Ch. 8.1 - Prob. 2PQ Ch. 8.1 - Prob. 3PQ Ch. 8.1 - Prob. 1E Ch. 8.1 - Prob. 2E Ch. 8.1 - Prob. 3E Ch. 8.1 - Prob. 4E Ch. 8.1 - Prob. 5E Ch. 8.1 - Prob. 6E Ch. 8.1 - Prob. 7E

a) To find the width of triangle at depth y is f ( y ) = y 2 .