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Math Calculus Calculus: Early Transcendentals (3rd Edition)

Ampère’s Law The French physicist André–Marie Ampère (1775–1836) discovered that an electrical current I in a wire produces a magnetic field B . A special case of Ampère’s Law relates the current to the magnetic field through the equation ∮ C B ⋅ d r = μ I , where C is any closed curve through which the wire passes and μ is a physical constant. Assume that the current I is given in terms of the current density J as I = ∬ S J • n d S , where S is an oriented surface with C as a boundary. Use Stokes’ Theorem to show that an equivalent form of Ampère’s Law is ▿ × B = μ J.

Ampère’s Law The French physicist André–Marie Ampère (1775–1836) discovered that an electrical current I in a wire produces a magnetic field B . A special case of Ampère’s Law relates the current to the magnetic field through the equation ∮ C B ⋅ d r = μ I , where C is any closed curve through which the wire passes and μ is a physical constant. Assume that the current I is given in terms of the current density J as I = ∬ S J • n d S , where S is an oriented surface with C as a boundary. Use Stokes’ Theorem to show that an equivalent form of Ampère’s Law is ▿ × B = μ J.

Solution Summary: The author explains the equivalent form of Ampère's Law: the current to the magnetic field is calculated through the equation displaystyle

Calculus: Early Transcendentals (3rd Edition)

Calculus: Early Transcendentals (3rd Edition)

3rd Edition

ISBN: 9780134763644

Author: William L. Briggs, Lyle Cochran, Bernard Gillett, Eric Schulz

Publisher: PEARSON

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Chapter 17.7, Problem 42E

Ampère’s Law The French physicist André–Marie Ampère (1775–1836) discovered that an electrical current I in a wire produces a magnetic field B. A special case of Ampère’s Law relates the current to the magnetic field through the equation ∮ C B ⋅ d r = μ I , where C is any closed curve through which the wire passes and μ is a physical constant. Assume that the current I is given in terms of the current density J as I = ∬ S J • n d S , where S is an oriented surface with C as a boundary. Use Stokes’ Theorem to show that an equivalent form of Ampère’s Law is ▿ × B = μJ.

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Chapter 17.7, Problem 41E

Chapter 17.7, Problem 43E

Chapter 17 Solutions

Calculus: Early Transcendentals (3rd Edition)

Ch. 17.1 - If the vector field in Example 1c describes the...Ch. 17.1 - In Example 2, verify that g(x, y). G(x, y) = 0. In...Ch. 17.1 - Find the gradient field associated with the...Ch. 17.1 - How is a vector field F = f, g, h used to describe...Ch. 17.1 - Sketch the vector field F = x, y.Ch. 17.1 - Prob. 3E Ch. 17.1 - Given a differentiable, scalar-valued function ,...Ch. 17.1 - Interpret the gradient field of the temperature...Ch. 17.1 - Show that all the vectors in vector field...Ch. 17.1 - Sketch a few representative vectors of vector...

Ch. 17.1 - Sketching vector fields Sketch the following...Ch. 17.1 - Sketching vector fields Sketch the following...Ch. 17.1 - Two-dimensional vector fields Sketch the following...Ch. 17.1 - Two-dimensional vector fields Sketch the following...Ch. 17.1 - Two-dimensional vector fields Sketch the following...Ch. 17.1 - Two-dimensional vector fields Sketch the following...Ch. 17.1 - Two-dimensional vector fields Sketch the following...Ch. 17.1 - Two-dimensional vector fields Sketch the following...Ch. 17.1 - Two-dimensional vector fields Sketch the following...Ch. 17.1 - Two-dimensional vector fields Sketch the following...Ch. 17.1 - Two-dimensional vector fields Sketch the following...Ch. 17.1 - Two-dimensional vector fields Sketch the following...Ch. 17.1 - Prob. 20E Ch. 17.1 - Three-dimensional vector fields Sketch a few...Ch. 17.1 - Three-dimensional vector fields Sketch a few...Ch. 17.1 - Three-dimensional vector fields Sketch a few...Ch. 17.1 - Matching vector Fields with graphs Match vector...Ch. 17.1 - Normal and tangential components For the vector...Ch. 17.1 - Normal and tangential components For the vector...Ch. 17.1 - Normal and tangential components For the vector...Ch. 17.1 - Normal and tangential components For the vector...Ch. 17.1 - Normal and tangential components For the vector...Ch. 17.1 - Normal and tangential components For the vector...Ch. 17.1 - Design your own vector field Specify the component...Ch. 17.1 - Design your own vector field Specify the component...Ch. 17.1 - Design your own vector field Specify the component...Ch. 17.1 - Design your own vector field Specify the component...Ch. 17.1 - Gradient fields Find the gradient field F = for...Ch. 17.1 - Gradient fields Find the gradient field F = for...Ch. 17.1 - Gradient fields Find the gradient field F = for...Ch. 17.1 - Gradient fields Find the gradient field F = for...Ch. 17.1 - Gradient fields Find the gradient field F = for...Ch. 17.1 - Gradient fields Find the gradient field F = for...Ch. 17.1 - Gradient fields Find the gradient field F = for...Ch. 17.1 - Gradient fields Find the gradient field F = for...Ch. 17.1 - Gradient fields on curves For the potential...Ch. 17.1 - Gradient fields on curves For the potential...Ch. 17.1 - Gradient fields on curves For the potential...Ch. 17.1 - Gradient fields on curves For the potential...Ch. 17.1 - Gradient fields Find the gradient field F = for...Ch. 17.1 - Gradient fields Find the gradient field F = for...Ch. 17.1 - Equipotential curves Consider the following...Ch. 17.1 - Equipotential curves Consider the following...Ch. 17.1 - Equipotential curves Consider the following...Ch. 17.1 - Equipotential curves Consider the following...Ch. 17.1 - Explain why or why not Determine whether the...Ch. 17.1 - Electric field due to a point charge The electric...Ch. 17.1 - Electric field due to a line of charge The...Ch. 17.1 - Gravitational force due to a mass The...Ch. 17.1 - Flow curves in the plane Let...Ch. 17.1 - Flow curves in the plane Let...Ch. 17.1 - Flow curves in the plane Let...Ch. 17.1 - Flow curves in the plane Let...Ch. 17.1 - Flow curves in the plane Let...Ch. 17.1 - Prob. 62E Ch. 17.1 - Prob. 63E Ch. 17.1 - Prob. 64E Ch. 17.1 - Prob. 65E Ch. 17.1 - Vector fields in polar coordinates A vector field...Ch. 17.1 - Cartesian-to-polar vector field Write the vector...Ch. 17.2 - Explain mathematically why differentiating the arc...Ch. 17.2 - Suppose r(t) = t,0, for a t b, is a parametric...Ch. 17.2 - Prob. 3QC Ch. 17.2 - Suppose a two dimensional force field is...Ch. 17.2 - Prob. 5QC Ch. 17.2 - How does a line integral differ from the...Ch. 17.2 - If a curve C is given by r(t) = t, t2, what is...Ch. 17.2 - Prob. 3E Ch. 17.2 - Find a parametric description r(t) for the...Ch. 17.2 - Find a parametric description r(t) for the...Ch. 17.2 - Find a parametric description r(t) for the...Ch. 17.2 - Find a parametric description r(t) for the...Ch. 17.2 - Find an expression for the vector field F = x y,...Ch. 17.2 - Suppose C is the curve r(t) = t,t3, for 0 t 2,...Ch. 17.2 - Suppose C is the circle r(l) = cos l, sin l , for...Ch. 17.2 - State two other forms for the line integral CFTds...Ch. 17.2 - Assume F is continuous on a region containing the...Ch. 17.2 - Assume F is continuous on a region containing the...Ch. 17.2 - How is the circulation of a vector field on a...Ch. 17.2 - Prob. 16E Ch. 17.2 - Scalar line integrals Evaluate the following line...Ch. 17.2 - Scalar line integrals Evaluate the following line...Ch. 17.2 - Scalar line integrals Evaluate the following line...Ch. 17.2 - Scalar line integrals Evaluate the following line...Ch. 17.2 - Scalar line integrals Evaluate the following line...Ch. 17.2 - Scalar line integrals Evaluate the following line...Ch. 17.2 - Scalar line integrals Evaluate the following line...Ch. 17.2 - Scalar line integrals in 3Convert the line...Ch. 17.2 - Scalar line integrals Evaluate the following line...Ch. 17.2 - Scalar line integrals Evaluate the following line...Ch. 17.2 - Scalar line integrals Evaluate the following line...Ch. 17.2 - Scalar line integrals Evaluate the following line...Ch. 17.2 - Scalar line integrals Evaluate the following line...Ch. 17.2 - Scalar line integrals Evaluate the following line...Ch. 17.2 - Scalar line integrals Evaluate the following line...Ch. 17.2 - Scalar line integrals in 3Convert the line...Ch. 17.2 - Scalar line integrals Evaluate the following line...Ch. 17.2 - Scalar line integrals Evaluate the following line...Ch. 17.2 - Mass and density A thin wire represented by the...Ch. 17.2 - Mass and density A thin wire represented by the...Ch. 17.2 - Average values Find the average value of the...Ch. 17.2 - Average values Find the average value of the...Ch. 17.2 - Length of curves Use a scalar line integral to...Ch. 17.2 - Length of curves Use a scalar line integral to...Ch. 17.2 - Line integrals of vector fields in the plane Given...Ch. 17.2 - Line integrals of vector fields in the plane Given...Ch. 17.2 - Line integrals of vector fields in the plane Given...Ch. 17.2 - Line integrals of vector fields in the plane Given...Ch. 17.2 - Line integrals of vector fields in the plane Given...Ch. 17.2 - Line integrals of vector fields in the plane Given...Ch. 17.2 - 47–48. Line integrals from graphs Determine...Ch. 17.2 - Line integrals from graphs Determine whether c F ...Ch. 17.2 - Work integrals Given the force field F, find the...Ch. 17.2 - Work integrals Given the force field F, find the...Ch. 17.2 - Work integrals Given the force field F, find the...Ch. 17.2 - Work integrals Given the force field F, find the...Ch. 17.2 - Work integrals in 3 Given the force field F, find...Ch. 17.2 - Work integrals in 3 Given the force field F, find...Ch. 17.2 - Work integrals in 3 Given the force field F, find...Ch. 17.2 - Work integrals in 3 Given the force field F, find...Ch. 17.2 - Circulation Consider the following vector fields F...Ch. 17.2 - Circulation Consider the following vector fields F...Ch. 17.2 - Flux Consider the vector fields and curves in...Ch. 17.2 - Flux Consider the vector fields and curves in...Ch. 17.2 - Explain why or why not Determine whether the...Ch. 17.2 - Flying into a headwind An airplane flies in the...Ch. 17.2 - Flying into a headwind How does the result of...Ch. 17.2 - Prob. 64E Ch. 17.2 - Changing orientation Let f(x, y) = x and let C be...Ch. 17.2 - Work in a rotation field Consider the rotation...Ch. 17.2 - Work in a hyperbolic field Consider the hyperbolic...Ch. 17.2 - Assorted line integrals Evaluate each line...Ch. 17.2 - Assorted line integrals Evaluate each line...Ch. 17.2 - Assorted line integrals Evaluate each line...Ch. 17.2 - Assorted line integrals Evaluate each line...Ch. 17.2 - Flux across curves in a vector field Consider the...Ch. 17.2 - Prob. 74E Ch. 17.2 - Zero circulation fields 57.Consider the vector...Ch. 17.2 - Zero flux fields 58.For what values of a and d...Ch. 17.2 - Zero flux fields 59.Consider the vector field F =...Ch. 17.2 - Heat flux in a plate A square plate R = {(x, y): 0...Ch. 17.2 - Prob. 79E Ch. 17.2 - Line integrals with respect to dx and dy Given a...Ch. 17.2 - Looking ahead: Area from line integrals The area...Ch. 17.2 - Prob. 82E Ch. 17.3 - Is a figure-8 curve simple? Closed? Is a torus...Ch. 17.3 - Explain why a potential function for a...Ch. 17.3 - Verify by differentiation that the potential...Ch. 17.3 - Explain why the vector field (xy + xz yz) is...Ch. 17.3 - What does it mean for a function to have an...Ch. 17.3 - What are local maximum and minimum values of a...Ch. 17.3 - What conditions must be met to ensure that a...Ch. 17.3 - How do you determine whether a vector field in 3...Ch. 17.3 - Briefly describe how to find a potential function ...Ch. 17.3 - If F is a conservative vector field on a region R,...Ch. 17.3 - If F is a conservative vector field on a region R,...Ch. 17.3 - Give three equivalent properties of conservative...Ch. 17.3 - How do you determine the absolute maximum and...Ch. 17.3 - Explain how a function can have an absolute...Ch. 17.3 - Testing for conservative vector fields Determine...Ch. 17.3 - Testing for conservative vector fields Determine...Ch. 17.3 - Testing for conservative vector fields Determine...Ch. 17.3 - Testing for conservative vector fields Determine...Ch. 17.3 - Testing for conservative vector fields Determine...Ch. 17.3 - Testing for conservative vector fields Determine...Ch. 17.3 - Finding potential functions Determine whether the...Ch. 17.3 - Finding potential functions Determine whether the...Ch. 17.3 - Finding potential functions Determine whether the...Ch. 17.3 - Finding potential functions Determine whether the...Ch. 17.3 - Designing a function Sketch a graph of a function...Ch. 17.3 - Finding Potential functions Determine Whether the...Ch. 17.3 - Designing a function Sketch a graph of a function...Ch. 17.3 - Designing a function Sketch a graph of a function...Ch. 17.3 - Finding potential functions Determine whether the...Ch. 17.3 - Finding potential functions Determine whether the...Ch. 17.3 - Finding potential functions Determine whether the...Ch. 17.3 - Finding potential functions Determine whether the...Ch. 17.3 - Finding potential functions Determine whether the...Ch. 17.3 - Finding potential functions Determine whether the...Ch. 17.3 - Evaluating line integrals Evaluate the line...Ch. 17.3 - Evaluating line integrals Evaluate the line...Ch. 17.3 - Evaluating line integrals Evaluate the line...Ch. 17.3 - Evaluating line integrals Evaluate the line...Ch. 17.3 - Applying the Fundamental Theorem of Line integrals...Ch. 17.3 - Applying the Fundamental Theorem of Line integrals...Ch. 17.3 - Applying the Fundamental Theorem of Line integrals...Ch. 17.3 - Applying the Fundamental Theorem of Line integrals...Ch. 17.3 - Using the Fundamental Theorem for line integrals...Ch. 17.3 - Using the Fundamental Theorem for line integrals...Ch. 17.3 - Using the Fundamental Theorem for line integrals...Ch. 17.3 - Using the Fundamental Theorem for line integrals...Ch. 17.3 - Using the Fundamental Theorem for line integrals...Ch. 17.3 - Using the Fundamental Theorem for line integral...Ch. 17.3 - Line integrals of vector fields on closed curves...Ch. 17.3 - Line integrals of vector fields on closed curves...Ch. 17.3 - Line integrals of vector fields on closed curves...Ch. 17.3 - Line integrals of vector fields on closed curves...Ch. 17.3 - Line integrals of vector fields on closed curves...Ch. 17.3 - Line integrals of vector fields on closed curves...Ch. 17.3 - Evaluating line integral using level curves...Ch. 17.3 - Evaluating line integral using level curves...Ch. 17.3 - Line integrals Evaluate each line integral using a...Ch. 17.3 - Line integrals Evaluate each line integral using a...Ch. 17.3 - Line integrals Evaluate the following line...Ch. 17.3 - Line integrals Evaluate the following line...Ch. 17.3 - Prob. 57E Ch. 17.3 - Prob. 58E Ch. 17.3 - Work in force fields Find the work required to...Ch. 17.3 - Work in force fields Find the work required to...Ch. 17.3 - Work in force fields Find the work required to...Ch. 17.3 - Work in force fields Find the work required to...Ch. 17.3 - Suppose C is a circle centered at the origin in a...Ch. 17.3 - A vector field that is continuous in R2 is given...Ch. 17.3 - Prob. 65E Ch. 17.3 - Conservation of energy Suppose an object with mass...Ch. 17.3 - Gravitational potential The gravitational force...Ch. 17.3 - Radial Fields in 3 are conservative Prove that the...Ch. 17.3 - 55.Rotation fields are usually not conservative...Ch. 17.3 - Linear and quadratic vector fields a.For what...Ch. 17.3 - Prob. 71E Ch. 17.3 - Prob. 72E Ch. 17.3 - Prob. 73E Ch. 17.3 - Prob. 74E Ch. 17.3 - Prob. 75E Ch. 17.4 - Compute gxfy for the radial vector field...Ch. 17.4 - Compute fxgy for the radial vector field...Ch. 17.4 - Prob. 3QC Ch. 17.4 - Explain why Greens Theorem proves that if gx = fy,...Ch. 17.4 - Explain why the two forms of Greens Theorem are...Ch. 17.4 - Referring to both forms of Greens Theorem, match...Ch. 17.4 - Prob. 3E Ch. 17.4 - Why does a two-dimensional vector field with zero...Ch. 17.4 - Why does a two-dimensional vector field with zero...Ch. 17.4 - Sketch a two-dimensional vector field that has...Ch. 17.4 - Sketch a two-dimensional vector field that has...Ch. 17.4 - Discuss one of the parallels between a...Ch. 17.4 - Assume C is a circle centered at the origin,...Ch. 17.4 - Assume C is a circle centered at the origin,...Ch. 17.4 - Assume C is a circle centered at the origin,...Ch. 17.4 - Prob. 12E Ch. 17.4 - Assume C is a circle centered at the origin,...Ch. 17.4 - Assume C is a circle centered at the origin,...Ch. 17.4 - Suppose C is the boundary of region R = {(x, y):x2...Ch. 17.4 - Suppose C is the boundary of region R = {(x, y):...Ch. 17.4 - Greens Theorem, circulation form Consider the...Ch. 17.4 - Greens Theorem, circulation form Consider the...Ch. 17.4 - Greens Theorem, circulation form Consider the...Ch. 17.4 - Greens Theorem, circulation form Consider the...Ch. 17.4 - Area of regions Use a line integral on the...Ch. 17.4 - Area of regions Use a line integral on the...Ch. 17.4 - Area of regions Use a line integral on the...Ch. 17.4 - Area of regions Use a line integral on the...Ch. 17.4 - Area of regions Use a line integral on the...Ch. 17.4 - Area of regions Use a line integral on the...Ch. 17.4 - Greens Theorem, flux form Consider the following...Ch. 17.4 - Greens Theorem, flux form Consider the following...Ch. 17.4 - Greens Theorem, flux form Consider the following...Ch. 17.4 - Greens theorem, flux form Consider the following...Ch. 17.4 - Line integrals Use Greens Theorem to evaluate the...Ch. 17.4 - Line integrals Use Greens Theorem to evaluate the...Ch. 17.4 - Line integrals Use Greens Theorem to evaluate the...Ch. 17.4 - 3140. Line integrals Use Greens Theorem to...Ch. 17.4 - Line integrals Use Greens Theorem to evaluate the...Ch. 17.4 - Line integrals Use Greens Theorem to evaluate the...Ch. 17.4 - Line integrals Use Greens Theorem to evaluate the...Ch. 17.4 - Line integrals Use Greens Theorem to evaluate the...Ch. 17.4 - Line integrals use Greens Theorem to evaluate the...Ch. 17.4 - Line integrals Use Greens Theorem to evaluate the...Ch. 17.4 - General regions For the following vector fields,...Ch. 17.4 - General regions For the following vector fields,...Ch. 17.4 - General regions For the following vector fields,...Ch. 17.4 - General regions For the following vector fields,...Ch. 17.4 - Circulation and flux For the following vector...Ch. 17.4 - Circulation and flux for the following vector...Ch. 17.4 - Circulation and flux For the following vector...Ch. 17.4 - Circulation and flux For the following vector...Ch. 17.4 - Explain why or why not Determine whether the...Ch. 17.4 - Special line integrals Prove the following...Ch. 17.4 - Special line integrals Prove the following...Ch. 17.4 - Prob. 52E Ch. 17.4 - Area line integral Show that the value of...Ch. 17.4 - Area line integral In terms of the parameters a...Ch. 17.4 - Stream function Recall that if the vector field F...Ch. 17.4 - Stream function Recall that if the vector field F...Ch. 17.4 - Stream function Recall that if the vector field F...Ch. 17.4 - Stream function Recall that if the vector field F...Ch. 17.4 - Applications 5356. Ideal flow A two-dimensional...Ch. 17.4 - Applications 5356. Ideal flow A two-dimensional...Ch. 17.4 - Applications 5356. Ideal flow A two-dimensional...Ch. 17.4 - Applications 5356. Ideal flow A two-dimensional...Ch. 17.4 - Prob. 63E Ch. 17.4 - Greens Theorem as a Fundamental Theorem of...Ch. 17.4 - Greens Theorem as a Fundamental Theorem of...Ch. 17.4 - Whats wrong? Consider the rotation field...Ch. 17.4 - Whats wrong? Consider the radial field...Ch. 17.4 - Prob. 68E Ch. 17.4 - Flux integrals Assume the vector field F = (f, g)...Ch. 17.4 - Streamlines are tangent to the vector field Assume...Ch. 17.4 - Streamlines and equipotential lines Assume that on...Ch. 17.4 - Channel flow The flow in a long shallow channel is...Ch. 17.5 - Show that is a vector field has the form...Ch. 17.5 - Verify the claim made in Example 3d by showing...Ch. 17.5 - Show that is a vector field has the form...Ch. 17.5 - Is (uF) a vector function or a scalar function?Ch. 17.5 - Explain how to compute the divergence of the...Ch. 17.5 - Interpret the divergence of a vector field.Ch. 17.5 - What does it mean if the divergence of a vector...Ch. 17.5 - Explain how to compute the curl of the vector...Ch. 17.5 - Interpret the curl of a general rotation vector...Ch. 17.5 - What does it mean if the curl of a vector field is...Ch. 17.5 - What is the value of ( F)?Ch. 17.5 - What is the value of u?Ch. 17.5 - Divergence of vector fields Find the divergence of...Ch. 17.5 - Divergence of vector fields Find the divergence of...Ch. 17.5 - Divergence of vector fields Find the divergence of...Ch. 17.5 - Divergence of vector fields Find the divergence of...Ch. 17.5 - Divergence of vector fields Find the divergence of...Ch. 17.5 - Divergence of vector fields Find the divergence of...Ch. 17.5 - Divergence of vector fields Find the divergence of...Ch. 17.5 - Divergence of vector fields Find the divergence of...Ch. 17.5 - Divergence of radial fields Calculate the...Ch. 17.5 - Divergence of radial fields Calculate the...Ch. 17.5 - Divergence of radial fields Calculate the...Ch. 17.5 - Divergence of radial fields Calculate the...Ch. 17.5 - Divergence and flux from graphs Consider the...Ch. 17.5 - Divergence and flux from graphs Consider the...Ch. 17.5 - Curl of a rotational field Consider the following...Ch. 17.5 - Curl of a rotational field Consider the following...Ch. 17.5 - Curl of a rotational field Consider the following...Ch. 17.5 - Curl of a rotational field Consider the following...Ch. 17.5 - Curl of a vector field Compute the curl of the...Ch. 17.5 - Curl of a vector field Compute the curl of the...Ch. 17.5 - Curl of a vector field Compute the curl of the...Ch. 17.5 - Curl of a vector field Compute the curl of the...Ch. 17.5 - Curl of a vector field Compute the curl of the...Ch. 17.5 - Curl of a vector field Compute the curl of the...Ch. 17.5 - Curl of a vector field Compute the curl of the...Ch. 17.5 - Curl of a vector field Compute the curl of the...Ch. 17.5 - Derivative rules Prove the following identities....Ch. 17.5 - Derivative rules Prove the following identities....Ch. 17.5 - Derivative rules Prove the following identities....Ch. 17.5 - Derivative rules Prove the following identities....Ch. 17.5 - Explain why or why not Determine whether the...Ch. 17.5 - Another derivative combination Let F = (f, g, h)...Ch. 17.5 - Does it make sense? Are the following expressions...Ch. 17.5 - Zero divergence of the rotation field Show that...Ch. 17.5 - General rotation fields a.Let a = (0, 1, 0), r =...Ch. 17.5 - Prob. 44E Ch. 17.5 - Curl of the rotation field For the general...Ch. 17.5 - Inward to outward Find the exact points on the...Ch. 17.5 - Maximum divergence Within the cube {(x, y, z): |x|...Ch. 17.5 - Maximum curl Let F = Find the scalar component of...Ch. 17.5 - Zero component of the curl For what vectors n is...Ch. 17.5 - Prob. 50E Ch. 17.5 - Find a vector Field Find a vector field F with the...Ch. 17.5 - Prob. 52E Ch. 17.5 - Paddle wheel in a vector field Let F = z, 0, 0 and...Ch. 17.5 - Angular speed Consider the rotational velocity...Ch. 17.5 - Angular speed Consider the rotational velocity...Ch. 17.5 - Heat flux Suppose a solid object in 3 has a...Ch. 17.5 - Heat flux Suppose a solid object in 3 has a...Ch. 17.5 - Prob. 58E Ch. 17.5 - Gravitational potential The potential function for...Ch. 17.5 - Electric potential The potential function for the...Ch. 17.5 - Navier-Stokes equation The Navier-Stokes equation...Ch. 17.5 - Stream function and vorticity The rotation of a...Ch. 17.5 - Amperes Law One of Maxwells equations for...Ch. 17.5 - Prob. 64E Ch. 17.5 - Properties of div and curl Prove the following...Ch. 17.5 - Prob. 66E Ch. 17.5 - Identities Prove the following identities. Assume...Ch. 17.5 - Identities Prove the following identities. Assume...Ch. 17.5 - Prob. 69E Ch. 17.5 - Prob. 70E Ch. 17.5 - Prob. 71E Ch. 17.5 - Prob. 72E Ch. 17.5 - Prob. 73E Ch. 17.5 - Gradients and radial fields Prove that for a real...Ch. 17.5 - Prob. 75E Ch. 17.6 - Describe the surface r(u, v) = 2cosu,2sinu,v,for 0...Ch. 17.6 - Describe the surface r(u, v) = vcosu,vsinu,v, for...Ch. 17.6 - Describe the surface r(u, v) =...Ch. 17.6 - Prob. 4QC Ch. 17.6 - Explain why explicit description for a cylinder x2...Ch. 17.6 - Explain why the upward flux for the radial field...Ch. 17.6 - Give a parametric description for a cylinder with...Ch. 17.6 - Prob. 2E Ch. 17.6 - Give a parametric description for a sphere with...Ch. 17.6 - Prob. 4E Ch. 17.6 - Explain how to compute the surface integral of a...Ch. 17.6 - Explain what it means for a surface to be...Ch. 17.6 - Describe the usual orientation of a closed surface...Ch. 17.6 - Why is the upward flux of a vertical vector field...Ch. 17.6 - Parametric descriptions Give a parametric...Ch. 17.6 - Parametric descriptions Give a parametric...Ch. 17.6 - Parametric descriptions Give a parametric...Ch. 17.6 - Parametric descriptions Give a parametric...Ch. 17.6 - Parametric descriptions Give a parametric...Ch. 17.6 - Parametric descriptions Give a parametric...Ch. 17.6 - Identify the surface Describe the surface with the...Ch. 17.6 - Identify the surface Describe the surface with the...Ch. 17.6 - Identify the surface Describe the surface with the...Ch. 17.6 - Identify the surface Describe the surface with the...Ch. 17.6 - Surface area using a parametric description Find...Ch. 17.6 - Surface area using a parametric description Find...Ch. 17.6 - Surface area using a parametric description Find...Ch. 17.6 - Surface area using a parametric description Find...Ch. 17.6 - Surface area using a parametric description Find...Ch. 17.6 - Surface area using a parametric description Find...Ch. 17.6 - Surface integrals using a parametric description...Ch. 17.6 - Surface integrals using a parametric description...Ch. 17.6 - Surface integrals using a parametric description...Ch. 17.6 - Surface integrals using a parametric description...Ch. 17.6 - Surface area using an explicit description Find...Ch. 17.6 - Surface area using an explicit description Find...Ch. 17.6 - Surface area using an explicit description Find...Ch. 17.6 - Surface area using an explicit description Find...Ch. 17.6 - Surface area using an explicit description Find...Ch. 17.6 - Surface area using an explicit description Find...Ch. 17.6 - Surface integrals using an explicit description...Ch. 17.6 - Surface integrals using an explicit description...Ch. 17.6 - Surface integrals using an explicit description...Ch. 17.6 - Surface integrals using an explicit description...Ch. 17.6 - Average Values 39. Find the average temperature on...Ch. 17.6 - Average values 40.Find the average squared...Ch. 17.6 - Average values 41.Find the average value of the...Ch. 17.6 - Average values 42.Find the average value of the...Ch. 17.6 - Surface integrals of vector fields Find the flux...Ch. 17.6 - Surface integrals of vector fields Find the flux...Ch. 17.6 - Surface integrals of vector fields Find the flux...Ch. 17.6 - Surface integrals of vector fields Find the flux...Ch. 17.6 - Surface integrals of vector fields Find the flux...Ch. 17.6 - Surface integrals of vector fields Find the flux...Ch. 17.6 - Explain why or why not Determine whether the...Ch. 17.6 - Miscellaneous surface integrals Evaluate the...Ch. 17.6 - Miscellaneous surface integrals Evaluate the...Ch. 17.6 - Miscellaneous surface integrals Evaluate the...Ch. 17.6 - Miscellaneous surface integrals Evaluate the...Ch. 17.6 - Cone and sphere The cone z2 = x2 + y2 for z 0,...Ch. 17.6 - Cylinder and sphere Consider the sphere x2 + y2 +...Ch. 17.6 - Flux on a tetrahedron Find the upward flux of the...Ch. 17.6 - Flux across a cone Consider the field F = x, y, z...Ch. 17.6 - Surface area formula for cones Find the general...Ch. 17.6 - Surface area formula for spherical cap A sphere of...Ch. 17.6 - Radial fields and spheres Consider the radial...Ch. 17.6 - Heat flux The heat flow vector field for...Ch. 17.6 - Heat flux The heat flow vector field for...Ch. 17.6 - Prob. 63E Ch. 17.6 - Flux across a cylinder Let S be the cylinder x2 +...Ch. 17.6 - Flux across concentric spheres Consider the radial...Ch. 17.6 - Mass and center of mass Let S be a surface that...Ch. 17.6 - Mass and center of mass Let S be a surface that...Ch. 17.6 - Mass and center of mass Let S be a surface that...Ch. 17.6 - Mass and center of mass Let S be a surface that...Ch. 17.6 - Outward normal to a sphere Show that...Ch. 17.6 - Special case of surface integrals of scalar-valued...Ch. 17.6 - Surfaces of revolution Suppose y = f(x) is a...Ch. 17.6 - Rain on roofs Let z = s(x, y) define a surface...Ch. 17.6 - Surface area of a torus a.Show that a torus with...Ch. 17.6 - Surfaces of revolution single variable Let f be...Ch. 17.7 - Suppose S is a region in the xy-plane with a...Ch. 17.7 - In Example 3a We used the parameterization r(t) =...Ch. 17.7 - In Example 4, explain why a paddle wheel with its...Ch. 17.7 - Explain the meaning of the integral S(F)ndS in...Ch. 17.7 - Explain the meaning of the integral S(F)ndS in...Ch. 17.7 - Explain the meaning of Stokes Theorem.Ch. 17.7 - Why does a conservative vector field produce zero...Ch. 17.7 - Verifying Stokes Theorem Verify that the line...Ch. 17.7 - Verifying Stokes Theorem Verify that the line...Ch. 17.7 - Verifying Stokes Theorem Verify that the line...Ch. 17.7 - Verifying Stokes Theorem Verify that the line...Ch. 17.7 - Verifying Stokes Theorem Verify that the line...Ch. 17.7 - Verifying Stokes Theorem Verify that the line...Ch. 17.7 - Stokes Theorem for evaluating line integrals...Ch. 17.7 - Stokes Theorem for evaluating line integrals...Ch. 17.7 - Stokes Theorem for evaluating line integrals...Ch. 17.7 - Stokes Theorem for evaluating line integrals...Ch. 17.7 - Stokes Theorem for evaluating line integrals...Ch. 17.7 - Stokes Theorem for evaluating line integrals...Ch. 17.7 - Stokes Theorem for evaluating surface integrals...Ch. 17.7 - Stokes Theorem for evaluating surface integrals...Ch. 17.7 - Stokes Theorem for evaluating surface integrals...Ch. 17.7 - Stokes Theorem for evaluating surface integrals...Ch. 17.7 - Stokes Theorem for evaluating surface integrals...Ch. 17.7 - Stokes Theorem for evaluating surface integrals...Ch. 17.7 - Stokes Theorem for evaluating surface integrals...Ch. 17.7 - Stokes Theorem for evaluating surface integrals...Ch. 17.7 - Interpreting and graphing the curl For the...Ch. 17.7 - Interpreting and graphing the curl For the...Ch. 17.7 - Interpreting and graphing the curl For the...Ch. 17.7 - Interpreting and graphing the curl For the...Ch. 17.7 - Explain why or why not Determine whether the...Ch. 17.7 - Conservative fields Use Stokes Theorem to find the...Ch. 17.7 - Conservative fields Use Stokes Theorem to find the...Ch. 17.7 - Conservative fields Use Stokes Theorem to find the...Ch. 17.7 - Conservative fields Use Stokes Theorem to find the...Ch. 17.7 - Tilted disks Let S be the disk enclosed by the...Ch. 17.7 - Tilted disks Let S be the disk enclosed by the...Ch. 17.7 - Tilted disks Let S be the disk enclosed by the...Ch. 17.7 - Tilted disks Let S be the disk enclosed by the...Ch. 17.7 - Prob. 38E Ch. 17.7 - Circulation in a plane A circle C in the plane x +...Ch. 17.7 - No integrals Let F = (2z, z, 2y + x) and let S be...Ch. 17.7 - Compound surface and boundary Begin with the...Ch. 17.7 - Ampres Law The French physicist AndrMarie Ampre...Ch. 17.7 - Maximum surface integral Let S be the paraboloid z...Ch. 17.7 - Area of a region in a plane Let R be a region in a...Ch. 17.7 - Choosing a more convenient surface The goal is to...Ch. 17.7 - Radial fields and zero circulation Consider the...Ch. 17.7 - Zero curl Consider the vector field...Ch. 17.7 - Average circulation Let S be a small circular disk...Ch. 17.7 - Proof of Stokes Theorem Confirm the following step...Ch. 17.7 - Stokes Theorem on closed surfaces Prove that if F...Ch. 17.7 - Rotated Greens Theorem Use Stokes Theorem to write...Ch. 17.8 - Interpret the Divergence Theorem in the case that...Ch. 17.8 - In Example 3. does the vector field have negative...Ch. 17.8 - Draw unit cube D = {(x, y, z) : 0 x 1, 0 y 1, 0...Ch. 17.8 - Review Questions 1.Explain the meaning of the...Ch. 17.8 - Interpret the volume integral in the Divergence...Ch. 17.8 - Explain the meaning of the Divergence Theorem.Ch. 17.8 - What is the net outward flux of the rotation field...Ch. 17.8 - What is the net outward flux of the radial field F...Ch. 17.8 - What is the divergence of an inverse square vector...Ch. 17.8 - Suppose div F = 0 in a region enclosed by two...Ch. 17.8 - If div F 0 in a region enclosed by a small cube,...Ch. 17.8 - Verifying the Divergence Theorem Evaluate both...Ch. 17.8 - F = x, y, z; D = {(x, y, z): |x| 1, |y| 1, |z| ...Ch. 17.8 - Basic Skills 912.Verifying the Divergence Theorem...Ch. 17.8 - F = x2, y2, z2; D = {(x, y, z): |x| 1, |y| 2,...Ch. 17.8 - Rotation fields 13.Find the net outward flux of...Ch. 17.8 - Rotation fields 14.Find the net outward flux of...Ch. 17.8 - Find the net outward flux of the field F = bz cy,...Ch. 17.8 - Rotation fields 16.Find the net outward flux of F...Ch. 17.8 - Computing flux Use the Divergence Theorem to...Ch. 17.8 - Computing flux Use the Divergence Theorem to...Ch. 17.8 - F = x, 2y, z; S is the boundary of the tetrahedron...Ch. 17.8 - Computing flux Use the Divergence Theorem to...Ch. 17.8 - F = y 2x, x3 y, y2 z; S is the sphere {(x, y,...Ch. 17.8 - Computing flux Use the Divergence Theorem to...Ch. 17.8 - Computing flux Use the Divergence Theorem to...Ch. 17.8 - Computing flux Use the Divergence Theorem to...Ch. 17.8 - Divergence Theorem for more general regions Use...Ch. 17.8 - Divergence Theorem for more general regions Use...Ch. 17.8 - Divergence Theorem for more general regions Use...Ch. 17.8 - Divergence Theorem for more general regions Use...Ch. 17.8 - F = x2, y2, z2); D is the region in the first...Ch. 17.8 - Divergence Theorem for more general regions Use...Ch. 17.8 - Explain why or why not Determine whether the...Ch. 17.8 - Flux across a sphere Consider the radial field F =...Ch. 17.8 - Flux integrals Compute the outward flux of the...Ch. 17.8 - Flux integrals Compute the outward flux of the...Ch. 17.8 - Flux integrals Compute the outward flux of the...Ch. 17.8 - Radial fields Consider the radial vector field...Ch. 17.8 - Singular radial field Consider the radial field...Ch. 17.8 - Logarithmic potential Consider the potential...Ch. 17.8 - Gauss Law for electric fields The electric field...Ch. 17.8 - Gauss Law for gravitation The gravitational force...Ch. 17.8 - Heat transfer Fouriers Law of heat transfer (or...Ch. 17.8 - Heat transfer Fouriers Law of heat transfer (or...Ch. 17.8 - Heat transfer Fouriers Law of heat transfer (or...Ch. 17.8 - Heat transfer Fouriers Law of heat transfer (or...Ch. 17.8 - Heat transfer Fouriers Law of heat transfer (or...Ch. 17.8 - Inverse square fields are special Let F be a...Ch. 17.8 - A beautiful flux integral Consider the potential...Ch. 17.8 - Integration by parts (Gauss' Formula) Recall the...Ch. 17.8 - Prob. 49E Ch. 17.8 - Prob. 50E Ch. 17.8 - Greens Second Identity Prose Greens Second...Ch. 17.8 - Prob. 52E Ch. 17.8 - Prob. 53E Ch. 17.8 - Prob. 54E Ch. 17 - Explain why or why not Determine whether the...Ch. 17 - Matching vector fields Match vector fields a-f...Ch. 17 - Gradient fields in 2 Find the vector field F = ...Ch. 17 - Gradient fields in 2 Find the vector field F = ...Ch. 17 - Gradient fields in 3 Find the vector field F = ...Ch. 17 - Gradient fields in 3 Find the vector field F = ...Ch. 17 - Normal component Let C be the circle of radius 2...Ch. 17 - Line integrals Evaluate the following line...Ch. 17 - Line integrals Evaluate the following line...Ch. 17 - Line integrals Evaluate the following line...Ch. 17 - Two parameterizations Verify that C(x2y+3z)ds has...Ch. 17 - Work integral Find the work done in moving an...Ch. 17 - Work integrals in R3 Given the following force...Ch. 17 - Work integrals in 3 Given the following force...Ch. 17 - Circulation and flux Find the circulation and the...Ch. 17 - Circulation and flux Find the circulation and the...Ch. 17 - Circulation and flux Find the circulation and the...Ch. 17 - Circulation and flux Find the circulation and the...Ch. 17 - Flux in channel flow Consider the flow of water in...Ch. 17 - Conservative vector fields and potentials...Ch. 17 - Conservative vector fields and potentials...Ch. 17 - Conservative vector fields and potentials...Ch. 17 - Conservative vector fields and potentials...Ch. 17 - Evaluating line integrals Evaluate the line...Ch. 17 - Evaluating line integrals Evaluate the line...Ch. 17 - Evaluating line integrals Evaluate the line...Ch. 17 - Evaluating line integrals Evaluate the line...Ch. 17 - Radial fields in R2 are conservative Prove that...Ch. 17 - Greens Theorem for line integrals Use either form...Ch. 17 - Greens Theorem for line integrals Use either form...Ch. 17 - Greens Theorem for line integrals Use either form...Ch. 17 - Greens Theorem for line integrals Use either form...Ch. 17 - Areas of plane regions Find the area of the...Ch. 17 - Areas of plane regions Find the area of the...Ch. 17 - Circulation and flux Consider the following vector...Ch. 17 - Circulation and flux Consider the following vector...Ch. 17 - Parameters Let F = ax + by, cx + dy, where a, b,...Ch. 17 - Divergence and curl Compute the divergence and...Ch. 17 - Divergence and curl Compute the divergence and...Ch. 17 - Divergence and curl Compute the divergence and...Ch. 17 - Divergence and curl Compute the divergence and...Ch. 17 - Identities Prove that (1|r|4)=4r|r|6 and use the...Ch. 17 - Maximum curl Let F=z,x,y. a. What is the scalar...Ch. 17 - Paddle wheel in a vector field Let F = 0, 2x, 0...Ch. 17 - Surface areas Use a surface integral to find the...Ch. 17 - Surface areas Use a surface integral to find the...Ch. 17 - Surface areas Use a surface integral to find the...Ch. 17 - Surface areas Use a surface integral to find the...Ch. 17 - Surface integrals Evaluate the following surface...Ch. 17 - Surface integrals Evaluate the following surface...Ch. 17 - Surface integrals Evaluate the following surface...Ch. 17 - Flux integrals Find the flux of the following...Ch. 17 - Flux integrals Find the flux of the following...Ch. 17 - Three methods Find the surface area of the...Ch. 17 - Flux across hemispheres and paraboloids Let S be...Ch. 17 - Surface area of an ellipsoid Consider the...Ch. 17 - Stokes Theorem for line integrals Evaluate the...Ch. 17 - Stokes Theorem for line integrals Evaluate the...Ch. 17 - Stokes Theorem for surface integrals Use Stokes...Ch. 17 - Stokes Theorem for surface integrals Use Stokes...Ch. 17 - Conservative fields Use Stokes Theorem to find the...Ch. 17 - Computing fluxes Use the Divergence Theorem to...Ch. 17 - Computing fluxes Use the Divergence Theorem to...Ch. 17 - Computing fluxes Use the Divergence Theorem to...Ch. 17 - General regions Use the Divergence Theorem to...Ch. 17 - General regions Use the Divergence Theorem to...Ch. 17 - Flux integrals Compute the outward flux of the...Ch. 17 - Stokes Theorem on a compound surface Consider the...

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Tsunami Waves and BreakwatersThis is a continuation of Exercise 16. Breakwaters affect wave height by reducing energy. See Figure 5.30. If a tsunami wave of height H in a channel of width W encounters a breakwater that narrows the channel to a width w, then the height h of the wave beyond the breakwater is given by h=HR0.5, where R is the width ratio R=w/W. a. Suppose a wave of height 8 feet in a channel of width 5000feet encounters a breakwater that narrows the channel to 3000feet. What is the height of the wave beyond the breakwater? b. If a channel width is cut in half by a breakwater, what is the effect on wave height? 16. Height of Tsunami WavesWhen waves generated by tsunamis approach shore, the height of the waves generally increases. Understanding the factors that contribute to this increase can aid in controlling potential damage to areas at risk. Greens law tells how water depth affects the height of a tsunami wave. If a tsunami wave has height H at an ocean depth D, and the wave travels to a location with water depth d, then the new height h of the wave is given by h=HR0.25, where R is the water depth ratio given by R=D/d. a. Calculate the height of a tsunami wave in water 25feet deep if its height is 3feet at its point of origin in water 15,000feet deep. b. If water depth decreases by half, the depth ratio R is doubled. How is the height of the tsunami wave affected?

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Intro to the Laplace Transform & Three Examples; Author: Dr. Trefor Bazett;https://www.youtube.com/watch?v=KqokoYr_h1A;License: Standard YouTube License, CC-BY