vector calculus - iit hyderabadsuku/vectorcalculus2016/lecture...vector calculus dr. d. sukumar...
TRANSCRIPT
![Page 1: Vector Calculus - IIT Hyderabadsuku/vectorcalculus2016/Lecture...Vector Calculus Dr. D. Sukumar January 27, 2016 Surfaces Curves in plane has three forms I Explicit form: y = f(x)](https://reader033.vdocument.in/reader033/viewer/2022060320/5f0d17c97e708231d438a4d1/html5/thumbnails/1.jpg)
Vector Calculus
Dr. D. Sukumar
January 27, 2016
![Page 2: Vector Calculus - IIT Hyderabadsuku/vectorcalculus2016/Lecture...Vector Calculus Dr. D. Sukumar January 27, 2016 Surfaces Curves in plane has three forms I Explicit form: y = f(x)](https://reader033.vdocument.in/reader033/viewer/2022060320/5f0d17c97e708231d438a4d1/html5/thumbnails/2.jpg)
Surfaces
Curves in plane has three forms
I Explicit form: y = f (x)
I Implicit form: f (x , y) = 0
I Parametric form: r(t) = x(t)i + y(t)j , a ≤ t ≤ b
Surfaces in space has three forms
I Explicit form:z = f (x , y)
I Implicit form:f (x , y , z) = 0
I Parametric (vector) form:
r(u, v) = f (u, v)i+g(u, v)j+h(u, v)k, a ≤ u ≤ b, c ≤ v ≤ d
Range of r is the surface S, Domain of r is in the u, v plane.
![Page 3: Vector Calculus - IIT Hyderabadsuku/vectorcalculus2016/Lecture...Vector Calculus Dr. D. Sukumar January 27, 2016 Surfaces Curves in plane has three forms I Explicit form: y = f(x)](https://reader033.vdocument.in/reader033/viewer/2022060320/5f0d17c97e708231d438a4d1/html5/thumbnails/3.jpg)
Surfaces
Curves in plane has three forms
I Explicit form: y = f (x)
I Implicit form: f (x , y) = 0
I Parametric form: r(t) = x(t)i + y(t)j , a ≤ t ≤ b
Surfaces in space has three forms
I Explicit form:z = f (x , y)
I Implicit form:f (x , y , z) = 0
I Parametric (vector) form:
r(u, v) = f (u, v)i+g(u, v)j+h(u, v)k, a ≤ u ≤ b, c ≤ v ≤ d
Range of r is the surface S, Domain of r is in the u, v plane.
![Page 4: Vector Calculus - IIT Hyderabadsuku/vectorcalculus2016/Lecture...Vector Calculus Dr. D. Sukumar January 27, 2016 Surfaces Curves in plane has three forms I Explicit form: y = f(x)](https://reader033.vdocument.in/reader033/viewer/2022060320/5f0d17c97e708231d438a4d1/html5/thumbnails/4.jpg)
Surfaces
Curves in plane has three forms
I Explicit form: y = f (x)
I Implicit form: f (x , y) = 0
I Parametric form: r(t) = x(t)i + y(t)j , a ≤ t ≤ b
Surfaces in space has three forms
I Explicit form:z = f (x , y)
I Implicit form:f (x , y , z) = 0
I Parametric (vector) form:
r(u, v) = f (u, v)i+g(u, v)j+h(u, v)k, a ≤ u ≤ b, c ≤ v ≤ d
Range of r is the surface S, Domain of r is in the u, v plane.
![Page 5: Vector Calculus - IIT Hyderabadsuku/vectorcalculus2016/Lecture...Vector Calculus Dr. D. Sukumar January 27, 2016 Surfaces Curves in plane has three forms I Explicit form: y = f(x)](https://reader033.vdocument.in/reader033/viewer/2022060320/5f0d17c97e708231d438a4d1/html5/thumbnails/5.jpg)
Surfaces
Curves in plane has three forms
I Explicit form: y = f (x)
I Implicit form: f (x , y) = 0
I Parametric form: r(t) = x(t)i + y(t)j , a ≤ t ≤ b
Surfaces in space has three forms
I Explicit form:z = f (x , y)
I Implicit form:f (x , y , z) = 0
I Parametric (vector) form:
r(u, v) = f (u, v)i+g(u, v)j+h(u, v)k, a ≤ u ≤ b, c ≤ v ≤ d
Range of r is the surface S, Domain of r is in the u, v plane.
![Page 6: Vector Calculus - IIT Hyderabadsuku/vectorcalculus2016/Lecture...Vector Calculus Dr. D. Sukumar January 27, 2016 Surfaces Curves in plane has three forms I Explicit form: y = f(x)](https://reader033.vdocument.in/reader033/viewer/2022060320/5f0d17c97e708231d438a4d1/html5/thumbnails/6.jpg)
Surfaces
Curves in plane has three forms
I Explicit form: y = f (x)
I Implicit form: f (x , y) = 0
I Parametric form: r(t) = x(t)i + y(t)j , a ≤ t ≤ b
Surfaces in space has three forms
I Explicit form:z = f (x , y)
I Implicit form:f (x , y , z) = 0
I Parametric (vector) form:
r(u, v) = f (u, v)i+g(u, v)j+h(u, v)k, a ≤ u ≤ b, c ≤ v ≤ d
Range of r is the surface S, Domain of r is in the u, v plane.
![Page 7: Vector Calculus - IIT Hyderabadsuku/vectorcalculus2016/Lecture...Vector Calculus Dr. D. Sukumar January 27, 2016 Surfaces Curves in plane has three forms I Explicit form: y = f(x)](https://reader033.vdocument.in/reader033/viewer/2022060320/5f0d17c97e708231d438a4d1/html5/thumbnails/7.jpg)
Surfaces
Curves in plane has three forms
I Explicit form: y = f (x)
I Implicit form: f (x , y) = 0
I Parametric form: r(t) = x(t)i + y(t)j , a ≤ t ≤ b
Surfaces in space has three forms
I Explicit form:z = f (x , y)
I Implicit form:f (x , y , z) = 0
I Parametric (vector) form:
r(u, v) = f (u, v)i+g(u, v)j+h(u, v)k, a ≤ u ≤ b, c ≤ v ≤ d
Range of r is the surface S, Domain of r is in the u, v plane.
![Page 8: Vector Calculus - IIT Hyderabadsuku/vectorcalculus2016/Lecture...Vector Calculus Dr. D. Sukumar January 27, 2016 Surfaces Curves in plane has three forms I Explicit form: y = f(x)](https://reader033.vdocument.in/reader033/viewer/2022060320/5f0d17c97e708231d438a4d1/html5/thumbnails/8.jpg)
Surfaces
Curves in plane has three forms
I Explicit form: y = f (x)
I Implicit form: f (x , y) = 0
I Parametric form: r(t) = x(t)i + y(t)j , a ≤ t ≤ b
Surfaces in space has three forms
I Explicit form:z = f (x , y)
I Implicit form:f (x , y , z) = 0
I Parametric (vector) form:
r(u, v) = f (u, v)i+g(u, v)j+h(u, v)k, a ≤ u ≤ b, c ≤ v ≤ d
Range of r is the surface S, Domain of r is in the u, v plane.
![Page 9: Vector Calculus - IIT Hyderabadsuku/vectorcalculus2016/Lecture...Vector Calculus Dr. D. Sukumar January 27, 2016 Surfaces Curves in plane has three forms I Explicit form: y = f(x)](https://reader033.vdocument.in/reader033/viewer/2022060320/5f0d17c97e708231d438a4d1/html5/thumbnails/9.jpg)
Surface AreaExplicit form
Area of the surface f (x , y , z) = c over a closed and bounded planeregion R is
Surface area =
¨Sdσ =
ˆ ˆR
|∇f ||∇f .p|
dA
where p is a unit vector normal to R and ∇f · p 6= 0
The integral of g over S
Surface Integral =
¨Sgdσ =
ˆ ˆRg(x , y , z)
|∇f ||∇f .p|
dA
![Page 10: Vector Calculus - IIT Hyderabadsuku/vectorcalculus2016/Lecture...Vector Calculus Dr. D. Sukumar January 27, 2016 Surfaces Curves in plane has three forms I Explicit form: y = f(x)](https://reader033.vdocument.in/reader033/viewer/2022060320/5f0d17c97e708231d438a4d1/html5/thumbnails/10.jpg)
Surface AreaExplicit form
Area of the surface f (x , y , z) = c over a closed and bounded planeregion R is
Surface area =
¨Sdσ =
ˆ ˆR
|∇f ||∇f .p|
dA
where p is a unit vector normal to R and ∇f · p 6= 0The integral of g over S
Surface Integral =
¨Sgdσ =
ˆ ˆRg(x , y , z)
|∇f ||∇f .p|
dA
![Page 11: Vector Calculus - IIT Hyderabadsuku/vectorcalculus2016/Lecture...Vector Calculus Dr. D. Sukumar January 27, 2016 Surfaces Curves in plane has three forms I Explicit form: y = f(x)](https://reader033.vdocument.in/reader033/viewer/2022060320/5f0d17c97e708231d438a4d1/html5/thumbnails/11.jpg)
Find the area of the surface cut from the paraboloidx2 + y2 − z = 0 by the plane z = 2
∇f = 2xi + 2yj − k , |∇f | =√
4x2 + 4y2 + 1, p = k∇f · p = −1 and |∇f · p| = 1
SA =
ˆ ˆR
|∇f ||∇f · p|
dA =
¨x2+y2≤2
(√4x2 + 4y2 + 1
)dxdy
=
ˆ ˆr≤√2
√4r2 + 1 rdrdθ =
ˆ ˆr≤√2
√4r2 + 1
dr2
2dθ
=
ˆ 2π
0
ˆ √20
√4r2 + 1
dr2
2dθ =
1
2
ˆ 2π
0
1
4
(4r2 + 1) 3
2
32
√2
0
dθ
=1
2
1
4
ˆ 2π
0
[2
3(27− 1)
]dθ =
1
3
1
4(26× 2π) =
1
4
52π
3=
13π
3
![Page 12: Vector Calculus - IIT Hyderabadsuku/vectorcalculus2016/Lecture...Vector Calculus Dr. D. Sukumar January 27, 2016 Surfaces Curves in plane has three forms I Explicit form: y = f(x)](https://reader033.vdocument.in/reader033/viewer/2022060320/5f0d17c97e708231d438a4d1/html5/thumbnails/12.jpg)
Find the area of the surface cut from the paraboloidx2 + y2 − z = 0 by the plane z = 2∇f = 2xi + 2yj − k , |∇f | =
√4x2 + 4y2 + 1, p = k
∇f · p = −1 and |∇f · p| = 1
SA =
ˆ ˆR
|∇f ||∇f · p|
dA =
¨x2+y2≤2
(√4x2 + 4y2 + 1
)dxdy
=
ˆ ˆr≤√2
√4r2 + 1 rdrdθ =
ˆ ˆr≤√2
√4r2 + 1
dr2
2dθ
=
ˆ 2π
0
ˆ √20
√4r2 + 1
dr2
2dθ =
1
2
ˆ 2π
0
1
4
(4r2 + 1) 3
2
32
√2
0
dθ
=1
2
1
4
ˆ 2π
0
[2
3(27− 1)
]dθ =
1
3
1
4(26× 2π) =
1
4
52π
3=
13π
3
![Page 13: Vector Calculus - IIT Hyderabadsuku/vectorcalculus2016/Lecture...Vector Calculus Dr. D. Sukumar January 27, 2016 Surfaces Curves in plane has three forms I Explicit form: y = f(x)](https://reader033.vdocument.in/reader033/viewer/2022060320/5f0d17c97e708231d438a4d1/html5/thumbnails/13.jpg)
Find the area of the surface cut from the paraboloidx2 + y2 − z = 0 by the plane z = 2∇f = 2xi + 2yj − k , |∇f | =
√4x2 + 4y2 + 1, p = k
∇f · p = −1 and |∇f · p| = 1
SA =
ˆ ˆR
|∇f ||∇f · p|
dA =
¨x2+y2≤2
(√4x2 + 4y2 + 1
)dxdy
=
ˆ ˆr≤√2
√4r2 + 1 rdrdθ =
ˆ ˆr≤√2
√4r2 + 1
dr2
2dθ
=
ˆ 2π
0
ˆ √20
√4r2 + 1
dr2
2dθ =
1
2
ˆ 2π
0
1
4
(4r2 + 1) 3
2
32
√2
0
dθ
=1
2
1
4
ˆ 2π
0
[2
3(27− 1)
]dθ =
1
3
1
4(26× 2π) =
1
4
52π
3=
13π
3
![Page 14: Vector Calculus - IIT Hyderabadsuku/vectorcalculus2016/Lecture...Vector Calculus Dr. D. Sukumar January 27, 2016 Surfaces Curves in plane has three forms I Explicit form: y = f(x)](https://reader033.vdocument.in/reader033/viewer/2022060320/5f0d17c97e708231d438a4d1/html5/thumbnails/14.jpg)
Find the area of the region cut from the plane x + 2y + 2z − 5 bythe cylinder whose walls are x = y2 and x = 2− y2.
|∇f | = |i + 2j + 2k | =√
9 = 3, p = k , |∇f · p| = 2
=
¨R
|∇f ||∇f · p|
dA =
¨3
2dA
=3
2
{ˆ 1
0
ˆ √x−√xdxdy +
ˆ 2
1
ˆ √2−x−√2−x
dxdy
}
=3
2
2
[x
32
32
]10
− 2
[(2− x)
32
32
]21
=
3
2
{4
3+
4
3
}= 4
![Page 15: Vector Calculus - IIT Hyderabadsuku/vectorcalculus2016/Lecture...Vector Calculus Dr. D. Sukumar January 27, 2016 Surfaces Curves in plane has three forms I Explicit form: y = f(x)](https://reader033.vdocument.in/reader033/viewer/2022060320/5f0d17c97e708231d438a4d1/html5/thumbnails/15.jpg)
Find the area of the region cut from the plane x + 2y + 2z − 5 bythe cylinder whose walls are x = y2 and x = 2− y2.|∇f | = |i + 2j + 2k | =
√9 = 3, p = k , |∇f · p| = 2
=
¨R
|∇f ||∇f · p|
dA =
¨3
2dA
=3
2
{ˆ 1
0
ˆ √x−√xdxdy +
ˆ 2
1
ˆ √2−x−√2−x
dxdy
}
=3
2
2
[x
32
32
]10
− 2
[(2− x)
32
32
]21
=
3
2
{4
3+
4
3
}= 4
![Page 16: Vector Calculus - IIT Hyderabadsuku/vectorcalculus2016/Lecture...Vector Calculus Dr. D. Sukumar January 27, 2016 Surfaces Curves in plane has three forms I Explicit form: y = f(x)](https://reader033.vdocument.in/reader033/viewer/2022060320/5f0d17c97e708231d438a4d1/html5/thumbnails/16.jpg)
Find the area of the region cut from the plane x + 2y + 2z − 5 bythe cylinder whose walls are x = y2 and x = 2− y2.|∇f | = |i + 2j + 2k | =
√9 = 3, p = k , |∇f · p| = 2
=
¨R
|∇f ||∇f · p|
dA =
¨3
2dA
=3
2
{ˆ 1
0
ˆ √x−√xdxdy +
ˆ 2
1
ˆ √2−x−√2−x
dxdy
}
=3
2
2
[x
32
32
]10
− 2
[(2− x)
32
32
]21
=
3
2
{4
3+
4
3
}= 4
![Page 17: Vector Calculus - IIT Hyderabadsuku/vectorcalculus2016/Lecture...Vector Calculus Dr. D. Sukumar January 27, 2016 Surfaces Curves in plane has three forms I Explicit form: y = f(x)](https://reader033.vdocument.in/reader033/viewer/2022060320/5f0d17c97e708231d438a4d1/html5/thumbnails/17.jpg)
Exercise
1. Integrate g(x , y , z) = x + y + z over the portion of the plane2x + 2y + z = 2 that lies in the first octant. 2
![Page 18: Vector Calculus - IIT Hyderabadsuku/vectorcalculus2016/Lecture...Vector Calculus Dr. D. Sukumar January 27, 2016 Surfaces Curves in plane has three forms I Explicit form: y = f(x)](https://reader033.vdocument.in/reader033/viewer/2022060320/5f0d17c97e708231d438a4d1/html5/thumbnails/18.jpg)
Parametrized surfaces
r(u, v) = f (u, v)i + g(u, v)j + h(u, v)k, a ≤ u ≤ b c ≤ v ≤ dArea of surface is¨
Sdσ =
¨uv−region
|ru × rv |dudv
Surface integral of k over S
¨Skdσ =
¨uv−region
k(f , g , h)|ru × rv |dudv
![Page 19: Vector Calculus - IIT Hyderabadsuku/vectorcalculus2016/Lecture...Vector Calculus Dr. D. Sukumar January 27, 2016 Surfaces Curves in plane has three forms I Explicit form: y = f(x)](https://reader033.vdocument.in/reader033/viewer/2022060320/5f0d17c97e708231d438a4d1/html5/thumbnails/19.jpg)
Find the surface area of the portion of the cone z = 2√
x2 + y2between the planes z = 2 and z = 6
S(r , θ) = rcosθi + rsinθj + 2rk
rr = cosθi + rsinθj + 2k
rθ = −rsinθi + rcosθj + θk
|rr × rθ| =
∣∣∣∣∣∣i j k
cosθ sin θ 2−rsinθ r cos θ 0
∣∣∣∣∣∣= i(−2rcosθ)− j(2rsinθ) + k(rcos2θ + rsin2θ)
= | − 2rcosθi − 2rsinθj + rk|
=√
4r2cos2θ + 4r2sin2θ + r2
= r√
5
Area =´ 2π0
´ 31 r√
5drdθ = 8√
5π
![Page 20: Vector Calculus - IIT Hyderabadsuku/vectorcalculus2016/Lecture...Vector Calculus Dr. D. Sukumar January 27, 2016 Surfaces Curves in plane has three forms I Explicit form: y = f(x)](https://reader033.vdocument.in/reader033/viewer/2022060320/5f0d17c97e708231d438a4d1/html5/thumbnails/20.jpg)
Find the surface area of the portion of the cone z = 2√
x2 + y2between the planes z = 2 and z = 6
S(r , θ) = rcosθi + rsinθj + 2rk
rr = cosθi + rsinθj + 2k
rθ = −rsinθi + rcosθj + θk
|rr × rθ| =
∣∣∣∣∣∣i j k
cosθ sin θ 2−rsinθ r cos θ 0
∣∣∣∣∣∣= i(−2rcosθ)− j(2rsinθ) + k(rcos2θ + rsin2θ)
= | − 2rcosθi − 2rsinθj + rk|
=√
4r2cos2θ + 4r2sin2θ + r2
= r√
5
Area =´ 2π0
´ 31 r√
5drdθ = 8√
5π
![Page 21: Vector Calculus - IIT Hyderabadsuku/vectorcalculus2016/Lecture...Vector Calculus Dr. D. Sukumar January 27, 2016 Surfaces Curves in plane has three forms I Explicit form: y = f(x)](https://reader033.vdocument.in/reader033/viewer/2022060320/5f0d17c97e708231d438a4d1/html5/thumbnails/21.jpg)
Exercise
1. The first octant of the portion of the cone z =
√x2+y2
2between the planes z = 0 and z = 3
2. The portion of the plane x + y + z = 1
2.1 inside cylinder x2 + y2 = 92.2 inside cylinder y2 + z2 = 9
3. Integrate k(x , y , z) = x2 over the unit sphere x2 + y2 + z2 = 1