lecture notes vector analysis zct 211 lecturer: yoon tiem...
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Lecture NotesVector Analysis
ZCT 211
Lecturer: Yoon Tiem Leong
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Triple cross product
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● LHS of (a) ● RHS of (a)● Expand fully the
expressions
The compare component by components on both sides, and the results follow.The trick is: There is no trick involved. Just expand both sides and compare.
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The proof of (b)
(b) can be trivially proofed based on the (a) ●Simply swap the order of (A x B) with C in (a) (hence introducing a minus sign) and then rename B -> A, C -> B, A->C in the resultant formula:
●
A×B×C=−A×B×C =−BA⋅C C A⋅B
B -> A, C -> B, A->C
−C×A×B=−AC⋅BB C⋅AA×B×C=BA⋅C−AB⋅C
know
Show this
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Vector Differentiation
If u = t, then dr/dt= v
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Can you derive these equations using differentiation by parts?
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Vector as a function of scalar or a set of scalar
A=Ai i+A j j+A k kA i=Ai(u)
Ai=A i(x , y , z )A i=Ai(x , y , z ,t )
A=A(u)A=A(x , y , z)
A=A (x , y , z , t)
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Topics
1. Calculations involving algebra or the taking the derivations of vectors2. Application on kinematics (involving r, v, a)3. Application on dynamics / rotational dynamics, F = ma etc.4. Differential geometry
A=Ai i+A j j+A i jA=A(u)
A=A(x , y , z )A=A (x , y , z , t)
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Partial derivative of a function of multiple variable
∂∂ x
f (x , y , z )= limΔ x→0
f (x+Δx , y , z)(Δx)
∂∂ y
f (x , y , z)=limΔx→0
f (x , y+Δ y , z )(Δ y )
∂∂ z
f (x , y , z)=limΔz→ 0
f (x , y , z+Δ z)(Δ z )
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Example of partial derivative
f (x , y , z )=x2 y3 z4
∂∂ x
f (x , y , z )=2x ( y3 z 4)
∂∂ y
f (x , y , z)=3 y2(x2 z 4)
∂∂ z
f (x , y , z )=4 z3(x2 y3)
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We shall assume all vectors encountered are differentiable to any order n needed
An example would be A(x,y,z) as vector potential at fixed time.
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Recall your ZCA 110:
df (x )=df (x)dx
dx
df (x , y , z )=∂ f (x , y , z )
∂ xdx+
∂ f (x , y , z)∂ y
dy
+∂ f (x , y , z)
∂ zdz
For single variable function
For multiple variables function
Differential of a function of single and multi-variables
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Comment: solve by expanding A and B into their component form
Ai and B
i are functions of variable u, A
i= A
i(u), B
i= B
i(u)
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You can solve these questions by either (1) carry out the vector cross or dot product first, then take the derivative next, or (2) take the derivative of the bi-vectors first, then reduce the resultant vector derivatives.
Method 1
Method 2
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Visualise the curve of C =
using Mathematica
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Uniform circular motion
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This is the vector of angular momentum/m, fixed in direction and magnitude.In other words, the angular speed is constant and the circular object is not making any angular acceleration.
Visualise uniform circular motion using Mathematica
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Differential geometry
r
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dr
limΔs→0∣d r∣=ds
Δ s
Unit tangent vector at a point P on a curve C
A fixed point
arc length scurve C
ds
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The rate at which T changes with respect to the arc length s measures the curvature of C
Te direction of is , where is normal to the curve at that point. is also perpendicular to
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We call the unit vector N (which is defined as a unit vector in the direction as that of )
Principle normal
The magnitude of at the point on the
curve is denoted as =
Hence, we write
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Binormal to the curve B
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The coordinate system {T, N, B} is called trihedral / triad at the point
As s changes, the triad {T, N, B} changes along the curve C
– moving trihedral
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To characterise the geometry of a curve in 3D space
● Two quantities are required to describe the geometry of a 3D curve●
It tells you how B varies with s It tells you how T varies with s
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To show this, need to prove the following:d Bds
⊥B
d Bds
⊥T
Since {T, N, B} forms a right-handed system, a vector which is simultaneously perpendicular to both B and T necessarily means it is pointing in the N direction.
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First, showd Bds
⊥B
d B⋅B
ds=
d Bds
⋅BB⋅d Bds
=2B⋅d Bds
⇒d Bds
⊥B
d B⋅B
ds=
d B2
ds=2 B
d Bds
Independently,
2B⋅d Bds
=2 Bd Bds
=0
becaused Bds
=d∣B∣ds
=0
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Now showd Bds
⊥T
By definition, B=T×N
d Bds
=d Tds
×N T×d Nds
=N×N T×d Nds
=T×d Nds
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d Bds
=T×d Nds
T⋅d Bds
=T⋅T×d Nds
=T×T ⋅d Nds
=0
⇒d Bds
⊥T
The above relation can be deduced immediately (from the properties of cross product). Can you see how?
If you want to prove it explicitly, this is how
d Bds
⊥T
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d Bds
=−τN
We have shown that dB/ds is simultaneously perpendicular to both B and T. This means it is pointing in the N direction, since {T, N, B} forms a right-handed system.
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Don't simply prove it using brute force.
Prove it using the proof you have got in (a) and (b), namely,
{T, N, B} forms a right-handed system
and use the following “ingredients”
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N=B×T
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Chapter 4
Gradient, divergence and curl
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Del operator converts a scalar field into a vector field
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Directive unit vector
is
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For example, a=i
∇ϕ(x , y , z)=∂ϕ(x , y , z )
∂ xi+
∂ϕ(x , y , z )∂ y
j
+∂ϕ(x , y , z )
∂ yk
(∇ϕ)⋅i=∂ϕ(x , y , z )
∂ xRate of change of φ at (x,y,z) along the direction i
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A scalar function
A scalar operator
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This is just an algebraic exercise.But still you got to make sure you know how to do it despite the straightforwardness.
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Can you recognize these?
Of course, you have already seen them before (apart from a constant) in at least two instances
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Can you recognize these?
ϕ(r): spherically symmetric gravitational/Coulomb potential : gravitational field / Coulomb field
=r̂
r2
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0
x
P
y
z
r
dr
r is perpendicular to dr at P on the surface Need to show is perpendicular to dr
∇ϕ
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Show is perpendicular to dr
since
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Use the previous result.
Find at P(2,-2,3). It is a vector normal to the surface at P.
The normal unit vector at P can then be obtained via
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Is there any other unit normal?
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See mathematica file chap4.nb for the looks of these surfaces
The angle between the surfaces at the point is the angle between the normals to the surfaces at thepoint.
Simply: find the angle between these two vectors
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θ
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See mathematica code, Ch4.nb, to visualise these surfaces and the the normals
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This is a simply a simple algebraic example to show how divergence work on a vector field.
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Gauss's law in integral form(Electrostatics)
Gauss law for electrostatic field
For Gaussian surface enclosing zero net charge, Gauss law in the integral form reduce to
∫Gaussian surfaceE⋅d A=
ρϵ0
∫Gaussian surfaceE⋅d A=0
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Gauss's law in differential form
You will learn in later chapter that Gauss law can be cast into an equivalent form
On the other hand, electric field E and the electric potential are related via
E=−∇ ϕ
∫Gaussian surfaceE⋅d A=0
∫Gaussian surfaceE⋅d A=0 ∇⋅E=0
ϕ
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Derivation of Laplace equation
● Taking the divergence of the electric field, we can express the Gauss law in differential form in terms of electric potential
E=−∇ ϕ
∇⋅E=∇⋅(−∇ϕ)∇⋅E=−∇
2ϕ=0because ∇⋅E=0
Taking divergence
∇2ϕ=0
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Solution to the Laplace equation
Laplace equation is just Gauss law stated in the form of the Laplacian of the electric potential.So, instead of dealing with electric field on the Gaussian surface, you just simply need to solve the Laplace equation for the potential field.
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Example: Application of divergence in fluid dynamics
The flow of fluid is characterised by the velocity vector field, v(x,y,z)
Calculate the loss in the volume element per unit time
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Continuity equation for incompressible fluid
●Incompressible fluid: fluid that is neither created nor destroyed at any point.Hence no 'volume loss' will occur to an incompressible fluid.
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Solenoidal vector
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Hint: 1. Cast into a form that explicitly contains
2. Use:
∇⋅(A×r )=r⋅(∇×A)−A⋅(∇×r )
Note:A is a general vector field;r is position vector.
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∇×r=i [( ∂∂ y
) z−( ∂∂ z
) y ]+
− j [( ∂∂ x
) z−( ∂∂ z
) x ]+
k [ ( ∂∂ x
) y−( ∂∂ y
)x ]=0
The curl of a position vector is zero∇×r=0
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∇⋅(A×r )=r⋅(∇×A)−A⋅(∇×r )=r⋅(∇×A)
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Note: φ a general scalar field
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Note: A a general vector field
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Where will you see this equation?When you learn magnetostatics.Magnetic field B is express in terms of vector potential via
B=∇×AThe fact that there is no magnetic monopole is represented by the statement ∇⋅B=0
Hence the equationfollows.
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The curl of a vector field v
● This problem indicates that the curl of a vector field has something to do with rotational properties of the field.
● If the field v is that due to a moving fluid, for example, then a paddle wheel placed at various points in the field would tend to rotate in regions where curl v ≠ 0 (vortex field)
● If curl v = 0 in the region there would be no rotation and the field v is then called irrotational.
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The curl of a vector field v
● curl v ≠ 0: v is a vortex field (it 'rotates')● curl v = 0: v is an irrotational field (it does not
'rotate')
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So that you can prove 29 using the vector triple cross product result
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Where would you encounter the above identity?
When you learn Maxwell equations in electrodynamics.
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and
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You start from the identity proven in the previous slide and apply it on the E field:
A → E
Eq. (1)
because
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Eq. (2)
Independently,
Combining Eq. (1) and Eq. (2),
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The electric and magnetic fields, E and H, propagates according to the wave equation – prediction of electromagnetic wave propagating in free space.In other words, light is just electromagnetic wave.
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Chapter 5
Vector integration
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The trick is: do not integrate directly by brute force. Instead, cast the integrant into the form of a differentiation
∫ [A×d2 A
dt 2 ]dt=∫ [ddt
(something)]dt
∫ [ddt
(something)] dt=something+constant vector
so that
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P1
P2
Curve C
x
y
O
r(u=u1)
r(u=u2)
Pr(u)
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∆ ri
ri
y
xO
Ai
Curve C
P2
P1
i discrete variable
Line integration as the limit of discrete sum A
i●∆ r
i
limN ∞∑i=1
i=NAi⋅r i=∫P1
P2
A⋅d r=∫CA⋅d r
∆ ri=r
i+1 - r
i
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See mathematica code, Ch5.nb
Path C, as defined by
When the parameter t varies from 0 to 1, a point P traverses from (0,0,0) to (1,1,1) along the curve C
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Path (b)
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The path C is divided into three segments, each is to be evaluated independently according to the geometry of the line segment involved.
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Note: Line integration of a generic vector from one fixed point to another along two different paths are generally not the same, as seen in previous examples.
5
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The circular path with radius r is parametrised by the parametric equations
x=cos t, y = sin t
P(x,y)
When t varies from 0 to 2π, point P would have traversed clockwise by a full circle
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P(x,y)
Since the circular path C is located on the x-y plane, there is no variation in the z-variable, hence dz=0 in dr.dz=0
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x=cos t, dx =-sin t dt; y = sin t, dy=cos t dt
Setting the limit of integration from t=0 to t=2π amounts to performing the line integration in the anticlockwise (+ ve) direction.
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If the limit of integration is instead set from t=2π to t=0, that amounts to performing the line integration in the clockwise (-ve) direction. As result, the line integration would result in a relative negative sign:
Clockwise , -ve direction
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Line integration is direction-dependent
From the previous example, it is seen that in a given line integration, the direction of integration matters.
In most cases, integrating along opposite direction results in a relative minus sign between two line integrations (but this is not in general true).
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Line integration is direction-dependent
So, which is the correct answer in the previous example? The +ve one or the -ve one?
The correct statements are:
The work done is +18π if integrate along the circle in the clockwise direction;
The work done is -18π if integrate along the circle in the anticlockwise direction;
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Path 1
Path 2P1
P2 You are asked
to show that, if
F=∇ϕthen
∫Path1F⋅d r=∫Path2
F⋅d r
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If F=∇ϕ
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Conservative field
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Conversely, we can also show that if the line integration
is independent of the path C joining any two points, there exist a function φ such that
∫CF⋅d r
F=∇ϕ
φ is known as the 'scalar potential'
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(see next slide for a proof)
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Chap 4, page 61, Q8, part (b), (c)
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Conclusion of Q10
A conservative field is one which line integration of a field is independent of path.
If a field can be expressed in terms of a differentiable scalar function φ via
A=∇ϕthen A is conservative.
Conversely, if a field A is conservative, it can always be expressed a gradient of some scalar function, A=∇ϕ
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For details of the proof, read it yourself.
it can be proven that
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(i.e., A is conservative)
Theorem No.2 can be proved using Theorem 1.
Theorem No.1 is what we have just proven in Q10.
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Closed Line integration
Consider a line integration along a path C
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Need to prove two statements:
If
If
then
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The first part is proven. But we still need to prove the converse statement.
Proof of the first statement
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Proof of the converse statement
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Conclusion from Q10, Q11, Q13
The following statements are equivalent:
F is conservative
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Easiest to prove the statement by showing that the curl of F is zero.
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Integrate (1), (2) and (3) to obtain φ
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+ constant
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Another method
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A better still method is to use the potential function
=∫P1
P2
dϕ=ϕ(P2)−ϕ(P1)=Δϕ
=ϕ(3,1,4 )−ϕ(1,−2,1)=202
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Work done by conservative field and potential energy difference
For conservative fields, work done by the field when moving a particle from point P
1 to P
2 is equal
to the change of potential energy between P1 to P
2
W (r1→r2)=∫r 1
r 2
F(r )⋅d r=Δϕ=ϕ(r2)−ϕ(r 1)
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Have you seen any conservative field before?
Of course yes.
Gravitational force,
Its corresponding potential function,
Both are related via
Work done by gravitational force on a mass m from r
1 to r
2
Fg(r )=−GM m
r2 r̂
U (r )=−GMm
rFg(r )=∇U (r )
W (r1→r2)=∫r 1
r 2
Fg(r )⋅d r=ΔU=U (r2)−U (r1)
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Other conservative fields you have seen before
Electrostatic field is also a conservative field.
F(x)=k x x̂
Elastic force of a spring,
F(r )=qQ
4 πϵr2 r̂ U (r )=Qq
4 πϵrF(r )=∇U (r )
U (x )=k2
x2 F(x)=ddx
U (x )
What else?
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Is frictional force conservative?
● No.● Why? ● Despite the end points are the same, work
done by frictional force is path dependent.● Hence, there is no corresponding “frictional
potential” from which work done can be calculated as the difference of the “potential function” between two points.
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ZCT 211 Vector Analysis
Tutorial questions to submit. Take the questions from the textbook by Spiegel, Vector Analysis, Schaum series.
Chapter 1 Vectors and Scalar
Q38, Q39, Q44, Q47, Q59, Q61, Q64(a)
Q66(c) modified:
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Tutorial for Chapter 2
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Tutorial 3
Pass up personallyon
Monday class12 pm, 27 Oct 2014
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Tutorial for Chapter 3
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Tutorial 4
Pass up personallyon
Friday 10 pm class7 Nov 2011
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Tutorial for Chapter 4
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