apph 4200 physics of fluids - columbia...
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APPH 4200 Physics of Fluids
Kinematics: Describing Fluid Flow (Ch. 3)
1. Quick Review2. Lagrangian (material) & Eulerian (field)3. Streamlines & Pathlines4. Point Deformations: Stretching, Pinching, and Rotating5. Principal Axes (Cauchy-Stokes Decomposition)
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Vectors: U = {ux, uy, uz}L = r × p
Not Vector: list = {ρ, η, T}
Pseudovector: L = r × p
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Ch 2: Problem 4
.:.:~~--~~-
50 Cartesian Tensors
The indicial notation avoids all the problems mentioned in the preceding. The
algebraic manipulations are especially simple. The ordering of terms is unneces-
sary because A¡jBkl means the same thing as BkiAij. In this notation we deal with
components only, which are scalars. Another major advantage is that one does not
have to remember formulas except for the product eijkeklm, which is given by equa-
tion (2. 19). The disadvantage of the indicial notation is that the physical meaning of a
term becomes clear only after an examination of the indices. A second disadvantage
is that the cross product involves the introduction of the cumbersome e¡jk. This, how-ever, can frequently be avoided by writing the i-component of the vector product of 0
and v as (0 x v)¡ using a mixture of boldface and indicial notations. In this book we
shall use boldface, indicial and mixed notations in order to take advantage of each. As
the reader might have guessed, the algebraic manipulations wil be performed mostly
in the indicial notation, sometimes using the comma notation.
Exercises1. Using indicial notation, show that
.Í a x (b x c) = (a. c)b - (a. b)c.
(Hint: Call d == b x c. Then (a x d)m = epqmapdq = epqmape¡jqb¡cj. Using
equation (2.19), show that (a x d)m = (a. c)bm - (a. b)cm.)
2. Show that the condition for the vectors a, b, and c to be coplanar is
e¡jkaibjCk = O.
3. Prove the following relationships:
OijOij = 3epqrepqr = 6epq¡epqj = 2oij.
4. Show thatc . CT = CT . C = 8,
,.;
where C is the direction cosine matrx and 8 is the matrx of the Kronecker delta.
Any matrx obeying spch a relationship is called an orthogonal matri because it
represents transformation of one set of ortogonal axes into another.
5. Show that for a second-order tensor A, the following thee quantities areinvarant under the rotation of axes:
II = A¡¡
/z = I Aii A12 I + I A.2 A23/ + I Aii Al31A21 A22 A32 A33 A31 A33
13 = det(A¡j).
3
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Ch 2: Problem 4
.:.:~~--~~-
50 Cartesian Tensors
The indicial notation avoids all the problems mentioned in the preceding. The
algebraic manipulations are especially simple. The ordering of terms is unneces-
sary because A¡jBkl means the same thing as BkiAij. In this notation we deal with
components only, which are scalars. Another major advantage is that one does not
have to remember formulas except for the product eijkeklm, which is given by equa-
tion (2. 19). The disadvantage of the indicial notation is that the physical meaning of a
term becomes clear only after an examination of the indices. A second disadvantage
is that the cross product involves the introduction of the cumbersome e¡jk. This, how-ever, can frequently be avoided by writing the i-component of the vector product of 0
and v as (0 x v)¡ using a mixture of boldface and indicial notations. In this book we
shall use boldface, indicial and mixed notations in order to take advantage of each. As
the reader might have guessed, the algebraic manipulations wil be performed mostly
in the indicial notation, sometimes using the comma notation.
Exercises1. Using indicial notation, show that
.Í a x (b x c) = (a. c)b - (a. b)c.
(Hint: Call d == b x c. Then (a x d)m = epqmapdq = epqmape¡jqb¡cj. Using
equation (2.19), show that (a x d)m = (a. c)bm - (a. b)cm.)
2. Show that the condition for the vectors a, b, and c to be coplanar is
e¡jkaibjCk = O.
3. Prove the following relationships:
OijOij = 3epqrepqr = 6epq¡epqj = 2oij.
4. Show thatc . CT = CT . C = 8,
,.;
where C is the direction cosine matrx and 8 is the matrx of the Kronecker delta.
Any matrx obeying spch a relationship is called an orthogonal matri because it
represents transformation of one set of ortogonal axes into another.
5. Show that for a second-order tensor A, the following thee quantities areinvarant under the rotation of axes:
II = A¡¡
/z = I Aii A12 I + I A.2 A23/ + I Aii Al31A21 A22 A32 A33 A31 A33
13 = det(A¡j).
Multiplication and Contraction of Tensors
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Ch 2: Problem 4
.:.:~~--~~-
50 Cartesian Tensors
The indicial notation avoids all the problems mentioned in the preceding. The
algebraic manipulations are especially simple. The ordering of terms is unneces-
sary because A¡jBkl means the same thing as BkiAij. In this notation we deal with
components only, which are scalars. Another major advantage is that one does not
have to remember formulas except for the product eijkeklm, which is given by equa-
tion (2. 19). The disadvantage of the indicial notation is that the physical meaning of a
term becomes clear only after an examination of the indices. A second disadvantage
is that the cross product involves the introduction of the cumbersome e¡jk. This, how-ever, can frequently be avoided by writing the i-component of the vector product of 0
and v as (0 x v)¡ using a mixture of boldface and indicial notations. In this book we
shall use boldface, indicial and mixed notations in order to take advantage of each. As
the reader might have guessed, the algebraic manipulations wil be performed mostly
in the indicial notation, sometimes using the comma notation.
Exercises1. Using indicial notation, show that
.Í a x (b x c) = (a. c)b - (a. b)c.
(Hint: Call d == b x c. Then (a x d)m = epqmapdq = epqmape¡jqb¡cj. Using
equation (2.19), show that (a x d)m = (a. c)bm - (a. b)cm.)
2. Show that the condition for the vectors a, b, and c to be coplanar is
e¡jkaibjCk = O.
3. Prove the following relationships:
OijOij = 3epqrepqr = 6epq¡epqj = 2oij.
4. Show thatc . CT = CT . C = 8,
,.;
where C is the direction cosine matrx and 8 is the matrx of the Kronecker delta.
Any matrx obeying spch a relationship is called an orthogonal matri because it
represents transformation of one set of ortogonal axes into another.
5. Show that for a second-order tensor A, the following thee quantities areinvarant under the rotation of axes:
II = A¡¡
/z = I Aii A12 I + I A.2 A23/ + I Aii Al31A21 A22 A32 A33 A31 A33
13 = det(A¡j).
5
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Ch 2: Problem 5.:.:~~--~~-
50 Cartesian Tensors
The indicial notation avoids all the problems mentioned in the preceding. The
algebraic manipulations are especially simple. The ordering of terms is unneces-
sary because A¡jBkl means the same thing as BkiAij. In this notation we deal with
components only, which are scalars. Another major advantage is that one does not
have to remember formulas except for the product eijkeklm, which is given by equa-
tion (2. 19). The disadvantage of the indicial notation is that the physical meaning of a
term becomes clear only after an examination of the indices. A second disadvantage
is that the cross product involves the introduction of the cumbersome e¡jk. This, how-ever, can frequently be avoided by writing the i-component of the vector product of 0
and v as (0 x v)¡ using a mixture of boldface and indicial notations. In this book we
shall use boldface, indicial and mixed notations in order to take advantage of each. As
the reader might have guessed, the algebraic manipulations wil be performed mostly
in the indicial notation, sometimes using the comma notation.
Exercises1. Using indicial notation, show that
.Í a x (b x c) = (a. c)b - (a. b)c.
(Hint: Call d == b x c. Then (a x d)m = epqmapdq = epqmape¡jqb¡cj. Using
equation (2.19), show that (a x d)m = (a. c)bm - (a. b)cm.)
2. Show that the condition for the vectors a, b, and c to be coplanar is
e¡jkaibjCk = O.
3. Prove the following relationships:
OijOij = 3epqrepqr = 6epq¡epqj = 2oij.
4. Show thatc . CT = CT . C = 8,
,.;
where C is the direction cosine matrx and 8 is the matrx of the Kronecker delta.
Any matrx obeying spch a relationship is called an orthogonal matri because it
represents transformation of one set of ortogonal axes into another.
5. Show that for a second-order tensor A, the following thee quantities areinvarant under the rotation of axes:
II = A¡¡
/z = I Aii A12 I + I A.2 A23/ + I Aii Al31A21 A22 A32 A33 A31 A33
13 = det(A¡j).
Cartesian Tensors
~ preceding. The:rms is unneces-on we deal withiat one does nots given by equa-cal meaning of and disadvantageeijk. This, how-;tor product of uIn this book wetage of each. As:rformed mostly
?ijqbiCj. Using
mar is
Jnecker delta.ri because it
quantities 'are'w
I
Supplemental Readitig 51
(Hint; Use the result of Exercise 4 and the transformation rule (2.12) to show thati; = A;i = Aii = ii. Then show that AijAji and AijAjkAki are also inva
rants. In
fact, all contracted scalars of the form Aij A jk . . . Ami are invariants. Finally, verify
that
/z = l(ll - AijAji)
h = AijAjkAki - !¡AijAji + /zAii.
Because the right-hand sides are invarant, so are /z and h)
6. If u and v are vectors, show that the products Ui v j obey the transformationrule (2.12), and therefore represent a second-order tensor.
7. Show that oij is an isotropic tensor. That is, show that O;j = Oij under rotation
of the coordinate system. (Hint: Use the transformation rule (2.12) and the results of
Exercise 4.)
8. Obtain the recipe for the gradient of a scalar function in cylindrical polarcoordinates from the integral definition.
9. Obtan the recipe for the divergence of a vector in spherical polar coordinates
from the integral definition.
10. Proye that div(~urlii) = 0 for any vector u regardless of the coordinate
system. (Hit: ùse thë veCtòr integral theorems.)
i 1. Prove that curl (grad Ø) = 0 for any single-valued scalar ø regardless of thecoordinate system. (Hint: use Stokes' theorem.)
Literature Cited
Sommedeld, A. (1964). Mechanics of Deformble Bodies, New York: Academic Press. (Chapter I contansbrief but useful coverage of Caresian tensors.)
Supplemental ReadingArs, R. (1962). Vectors, Tensors, and the Basic Equations of Fluid Mechanics, Englewood Cliffs, NJ:
Prentice-Hal. (Ts book gives a clear and easy treatment of tensors in Caresian and non-Caresian
coordinates, with applications to fluid mechancs.)Prager, W. (1961). Introduction to Mechanics.of Continua, New York: Dover Publications. (Chapters 1
and 2 contan brief but useful coverage of Caresian tensors.)
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Ch 2: Problem 5
.:.:~~--~~-
50 Cartesian Tensors
The indicial notation avoids all the problems mentioned in the preceding. The
algebraic manipulations are especially simple. The ordering of terms is unneces-
sary because A¡jBkl means the same thing as BkiAij. In this notation we deal with
components only, which are scalars. Another major advantage is that one does not
have to remember formulas except for the product eijkeklm, which is given by equa-
tion (2. 19). The disadvantage of the indicial notation is that the physical meaning of a
term becomes clear only after an examination of the indices. A second disadvantage
is that the cross product involves the introduction of the cumbersome e¡jk. This, how-ever, can frequently be avoided by writing the i-component of the vector product of 0
and v as (0 x v)¡ using a mixture of boldface and indicial notations. In this book we
shall use boldface, indicial and mixed notations in order to take advantage of each. As
the reader might have guessed, the algebraic manipulations wil be performed mostly
in the indicial notation, sometimes using the comma notation.
Exercises1. Using indicial notation, show that
.Í a x (b x c) = (a. c)b - (a. b)c.
(Hint: Call d == b x c. Then (a x d)m = epqmapdq = epqmape¡jqb¡cj. Using
equation (2.19), show that (a x d)m = (a. c)bm - (a. b)cm.)
2. Show that the condition for the vectors a, b, and c to be coplanar is
e¡jkaibjCk = O.
3. Prove the following relationships:
OijOij = 3epqrepqr = 6epq¡epqj = 2oij.
4. Show thatc . CT = CT . C = 8,
,.;
where C is the direction cosine matrx and 8 is the matrx of the Kronecker delta.
Any matrx obeying spch a relationship is called an orthogonal matri because it
represents transformation of one set of ortogonal axes into another.
5. Show that for a second-order tensor A, the following thee quantities areinvarant under the rotation of axes:
II = A¡¡
/z = I Aii A12 I + I A.2 A23/ + I Aii Al31A21 A22 A32 A33 A31 A33
13 = det(A¡j).
7
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Ch. 2 Question 10
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Ch. 2 Question 10
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Ch. 2 Question 10
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Ch. 2 Question 11
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Ch. 2 Question 11
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Ch. 2 Question 11
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Kinematics of Fluid Flow (Ch. 3)
1. Streamlines, pathlines, and convective (material) derivative
2.Translations, Deformation, and Rotation of a fluid element (Cauchy-Stokes Decomposition)
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Kinematics of Fluid Flow (Ch. 3)
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Eulerian Description (Field Variables)
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Time Derivatives
“advective” + “unsteady”
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Streamlines and Pathlines
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Streamlines and Pathlines (cont.)
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Streaklines or “Smoke Lines”~
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20
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Deformation and Flow: Translation, Stretching, Pinching, and Rotating
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Simple Comments about Velocity Gradient Tensor
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Simple Example:
Expansion/Contraction
Vector Notation
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Stretching along one Axis
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Rotation
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Bending, Distorting, Shearing
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Example Shearing
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Simple Example #1
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Simple Example #1(from a different point of view)
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Simple Example #2
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Simple Example #2(from a different point of view)
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Principal Axes for
Symmetric Tensors
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Example Principal Axes #2
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Example Principal Axes #1
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Summary: Cauchy-Stokes Decomposition
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