14· The shape of a hol be of height h and tan α-: hh, show t maximum if h = ( 15. A given quantity of semi-circular ends. S the ratio of the len m(π + 2). Use Lagr 16. Find the volume of ellipsoid x2は x1 and (iii) Lagrange m lipler method of optimization of a problem involving- Constraints and n variables. Formulation and Computational Exericses ain the set of necessary conditions for the non-linear programming problem: Maximize 2. If f = a3xf + b3xf + ex where x1x2 + x25 + xM" xix-X3, show that the stationary 3. Use direct substitution method to minimize f(x, x)+() subject to cylinder is inscribed in a cone of height h. Apply direct substitution method to prove S. Show that the rectangular solid of maximum volume that can be inscribed in a sphere 6 Show that, if the perimeter of a triangle is constant, the triangle has maximum area 3x 5xj subject to the constraintsxx2 3x 2; 5x12x2 value off occurs at x," Σα/a, X2 = Σα/b, x,-Σα/c. 4. A 17. Find the maximum ns. Jmin at the volume of the cylinder is maximum at height hs is cube. Use direct substitution method. when it is equilateral. Use direct substitution method. multipliers method. 18. A meditation centre the square hall has b of regular pyramid i required for painting substitution and (ii) 7. Show that the diameter of the right circular cylinder of greatest curved surface which can be inscribed in a given cone is equal to the radius of the cone. Use direct substitution method. [Hint: Let r = radius of cone, α semi-vertical angle of cone, h = height of cylinder and x = radius of cylinder, S-curved surface of cylinder then maximize S= 2TXh 19. A rectangular steel t the dimensions of th substitution (ii) Cons subject toh(r-x) cot a] 20. A window is to be d Apply constrained variation method to prove that the volume of the biggest right circular cone that can be inscribed in a sphere of given radius is 8/27 times that of the sphere. 9. Use constrained variation to maximize the volume of an open cone when the surface the perimeter is 40 ft (i) Direct substitutior [Ans. Radius of se 80/(+ area of the cone is 20π. [Hint: maximize V = 1/3㎡h subject to πrVr2 + h2-20 0] whose surface area is 24. 21. Find the volume of t of radius ‘x'. Use (i multipliers method. 10. Use constrained variation to maximize the volume of a box made up of thin sheet metal maximize rvz subject to 2n, + 2)z + 2zr = 24]
14· The shape of a hol be of height h and tan α-: hh, show t maximum if h = ( 15. A given quantity of semi-circular ends. S the ratio of the len m(π + 2). Use Lagr 16. Find the volume of ellipsoid x2は x1 and (iii) Lagrange m lipler method of optimization of a problem involving- Constraints and n variables. Formulation and Computational Exericses ain the set of necessary conditions for the non-linear programming problem: Maximize 2. If f = a3xf + b3xf + ex where x1x2 + x25 + xM" xix-X3, show that the stationary 3. Use direct substitution method to minimize f(x, x)+() subject to cylinder is inscribed in a cone of height h. Apply direct substitution method to prove S. Show that the rectangular solid of maximum volume that can be inscribed in a sphere 6 Show that, if the perimeter of a triangle is constant, the triangle has maximum area 3x 5xj subject to the constraintsxx2 3x 2; 5x12x2 value off occurs at x," Σα/a, X2 = Σα/b, x,-Σα/c. 4. A 17. Find the maximum ns. Jmin at the volume of the cylinder is maximum at height hs is cube. Use direct substitution method. when it is equilateral. Use direct substitution method. multipliers method. 18. A meditation centre the square hall has b of regular pyramid i required for painting substitution and (ii) 7. Show that the diameter of the right circular cylinder of greatest curved surface which can be inscribed in a given cone is equal to the radius of the cone. Use direct substitution method. [Hint: Let r = radius of cone, α semi-vertical angle of cone, h = height of cylinder and x = radius of cylinder, S-curved surface of cylinder then maximize S= 2TXh 19. A rectangular steel t the dimensions of th substitution (ii) Cons subject toh(r-x) cot a] 20. A window is to be d Apply constrained variation method to prove that the volume of the biggest right circular cone that can be inscribed in a sphere of given radius is 8/27 times that of the sphere. 9. Use constrained variation to maximize the volume of an open cone when the surface the perimeter is 40 ft (i) Direct substitutior [Ans. Radius of se 80/(+ area of the cone is 20π. [Hint: maximize V = 1/3㎡h subject to πrVr2 + h2-20 0] whose surface area is 24. 21. Find the volume of t of radius ‘x'. Use (i multipliers method. 10. Use constrained variation to maximize the volume of a box made up of thin sheet metal maximize rvz subject to 2n, + 2)z + 2zr = 24]
Advanced Engineering Mathematics
10th Edition
ISBN:9780470458365
Author:Erwin Kreyszig
Publisher:Erwin Kreyszig
Chapter2: Second-order Linear Odes
Section: Chapter Questions
Problem 1RQ
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Question
I need you to solve question no 5 only
![14· The shape of a hol
be of height h and
tan α-: hh, show t
maximum if h = (
15. A given quantity of
semi-circular ends. S
the ratio of the len
m(π + 2). Use Lagr
16. Find the volume of
ellipsoid x2は x1
and (iii) Lagrange m
lipler method of optimization of a problem involving-
Constraints and n variables.
Formulation and Computational Exericses
ain the set of necessary conditions for the non-linear programming problem: Maximize
2. If f = a3xf + b3xf + ex where x1x2 + x25 + xM" xix-X3, show that the stationary
3. Use direct substitution method to minimize f(x, x)+() subject to
cylinder is inscribed in a cone of height h. Apply direct substitution method to prove
S. Show that the rectangular solid of maximum volume that can be inscribed in a sphere
6 Show that, if the perimeter of a triangle is constant, the triangle has maximum area
3x
5xj subject to the constraintsxx2 3x 2; 5x12x2
value off occurs at x," Σα/a, X2 = Σα/b, x,-Σα/c.
4. A
17. Find the maximum
ns. Jmin
at the volume of the cylinder is maximum at height hs
is cube. Use direct substitution method.
when it is equilateral. Use direct substitution method.
multipliers method.
18. A meditation centre
the square hall has b
of regular pyramid i
required for painting
substitution and (ii)
7. Show that the diameter of the right circular cylinder of greatest curved surface which can be
inscribed in a given cone is equal to the radius of the cone. Use direct substitution method.
[Hint: Let r = radius of cone, α semi-vertical angle of cone, h = height of cylinder
and x = radius of cylinder, S-curved surface of cylinder then maximize S= 2TXh
19. A rectangular steel t
the dimensions of th
substitution (ii) Cons
subject toh(r-x) cot a]
20. A window is to be d
Apply constrained variation method to prove that the volume of the biggest right circular
cone that can be inscribed in a sphere of given radius is 8/27 times that of the sphere.
9. Use constrained variation to maximize the volume of an open cone when the surface
the perimeter is 40 ft
(i) Direct substitutior
[Ans. Radius of se
80/(+
area of the cone is 20π.
[Hint: maximize V = 1/3㎡h subject to πrVr2 + h2-20 0]
whose surface area is 24.
21. Find the volume of t
of radius ‘x'. Use (i
multipliers method.
10.
Use constrained variation to maximize the volume of a box made up of thin sheet metal
maximize rvz subject to 2n, + 2)z + 2zr = 24]](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F065d30fc-3ca4-4687-a659-d1717f17841a%2F6f069549-befa-43ce-a650-d3869a19d58b%2Fzgxjmkb.jpeg&w=3840&q=75)
Transcribed Image Text:14· The shape of a hol
be of height h and
tan α-: hh, show t
maximum if h = (
15. A given quantity of
semi-circular ends. S
the ratio of the len
m(π + 2). Use Lagr
16. Find the volume of
ellipsoid x2は x1
and (iii) Lagrange m
lipler method of optimization of a problem involving-
Constraints and n variables.
Formulation and Computational Exericses
ain the set of necessary conditions for the non-linear programming problem: Maximize
2. If f = a3xf + b3xf + ex where x1x2 + x25 + xM" xix-X3, show that the stationary
3. Use direct substitution method to minimize f(x, x)+() subject to
cylinder is inscribed in a cone of height h. Apply direct substitution method to prove
S. Show that the rectangular solid of maximum volume that can be inscribed in a sphere
6 Show that, if the perimeter of a triangle is constant, the triangle has maximum area
3x
5xj subject to the constraintsxx2 3x 2; 5x12x2
value off occurs at x," Σα/a, X2 = Σα/b, x,-Σα/c.
4. A
17. Find the maximum
ns. Jmin
at the volume of the cylinder is maximum at height hs
is cube. Use direct substitution method.
when it is equilateral. Use direct substitution method.
multipliers method.
18. A meditation centre
the square hall has b
of regular pyramid i
required for painting
substitution and (ii)
7. Show that the diameter of the right circular cylinder of greatest curved surface which can be
inscribed in a given cone is equal to the radius of the cone. Use direct substitution method.
[Hint: Let r = radius of cone, α semi-vertical angle of cone, h = height of cylinder
and x = radius of cylinder, S-curved surface of cylinder then maximize S= 2TXh
19. A rectangular steel t
the dimensions of th
substitution (ii) Cons
subject toh(r-x) cot a]
20. A window is to be d
Apply constrained variation method to prove that the volume of the biggest right circular
cone that can be inscribed in a sphere of given radius is 8/27 times that of the sphere.
9. Use constrained variation to maximize the volume of an open cone when the surface
the perimeter is 40 ft
(i) Direct substitutior
[Ans. Radius of se
80/(+
area of the cone is 20π.
[Hint: maximize V = 1/3㎡h subject to πrVr2 + h2-20 0]
whose surface area is 24.
21. Find the volume of t
of radius ‘x'. Use (i
multipliers method.
10.
Use constrained variation to maximize the volume of a box made up of thin sheet metal
maximize rvz subject to 2n, + 2)z + 2zr = 24]
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