12-267/Homework Assignment 3: Difference between revisions

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'''Task 1.''' Let <math>\phi_n\colon X\to{\mathbb R}</math> be a sequence of functions defined on some set <math>X</math>, and suppose that some sequence <math>c_n</math> of non-negative reals is given such that for every <math>x\in X</math>, <math>|\phi_n(x)-\phi_{n+1}(x)|\leq c_n</math>. Suppose also that <math>\sum_{n=1}^\infty c_n</math> is finite. Prove that the sequence <math>\phi_n</math> is uniformly convergent.
'''Task 1.''' Let <math>\phi_n\colon X\to{\mathbb R}</math> be a sequence of functions defined on some set <math>X</math>, and suppose that some sequence <math>c_n</math> of non-negative reals is given such that for every <math>x\in X</math>, <math>|\phi_n(x)-\phi_{n+1}(x)|\leq c_n</math>. Suppose also that <math>\sum_{n=1}^\infty c_n</math> is finite. Prove that the sequence <math>\phi_n</math> is uniformly convergent.


'''Task 2.'''
'''Task 2.''' Find the extremas of the following functionals:
# <math>y\mapsto \int_0^1y'dx</math> subject to <math>y(0)=0</math> and <math>y(1)=1</math>.
# <math>y\mapsto \int_0^1yy'dx</math> subject to <math>y(0)=0</math> and <math>y(1)=1</math>.
# <math>y\mapsto \int_0^1xyy'dx</math> subject to <math>y(0)=0</math> and <math>y(1)=1</math>.
# <math>y\mapsto\int_a^b\frac{y'^2}{x^3}dx</math>.
# <math>y\mapsto\int_a^b(y^2+y'^2+2ye^x)dx</math>.
# <math>y\mapsto\int_0^1(y'^2+x^2)dx</math> subject to <math>\int_0^1y^2dx=2</math> and <math>y(0)=0</math> and <math>y(1)=1</math>.


'''Task 3.''' A roach <math>R</math> I once met was mortally afraid of walls, and so when it walked on my kitchen's floor, its speed was exactly proportional to its distance from the nearest wall (that is, very near a wall it crawled very slowly, while in the centre of the room it run around quickly and happily). As a step towards simplifying <math>R</math>'s life, help it find the fastest path from one point in the upper half plane <math>\{y>0\}</math> to another point in the upper half plane, assuming there is only one wall around, built along the <math>x</math>-axis <math>y=0</math>.
'''Task 3.'''

Revision as of 11:57, 1 October 2012

In Preparation

The information below is preliminary and cannot be trusted! (v)

This assignment is due at the tutorial on Tuesday October 9. Here and everywhere, neatness counts!! You may be brilliant and you may mean just the right things, but if the your readers will be having hard time deciphering your work they will give up and assume it is wrong.

Task 0. Identify yourself in the Class Photo!

Task 1. Let be a sequence of functions defined on some set , and suppose that some sequence of non-negative reals is given such that for every , . Suppose also that is finite. Prove that the sequence is uniformly convergent.

Task 2. Find the extremas of the following functionals:

  1. subject to and .
  2. subject to and .
  3. subject to and .
  4. .
  5. .
  6. subject to and and .

Task 3. A roach I once met was mortally afraid of walls, and so when it walked on my kitchen's floor, its speed was exactly proportional to its distance from the nearest wall (that is, very near a wall it crawled very slowly, while in the centre of the room it run around quickly and happily). As a step towards simplifying 's life, help it find the fastest path from one point in the upper half plane to another point in the upper half plane, assuming there is only one wall around, built along the -axis .