Additions to the MAT 1100 web site no longer count towards good deed points
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Week of...
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Notes and Links
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1
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Sep 13
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About This Class, Tuesday - Non Commutative Gaussian Elimination, Thursday
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2
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Sep 20
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Tuesday - Homomorphisms and Normal Groups, Thursday - Isomorphism Theorems
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3
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Sep 27
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Class Photo, HW1, HW1 solution
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4
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Oct 4
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5
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Oct 11
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HW2, HW2 solution
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6
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Oct 18
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7
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Oct 25
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Term Test
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8
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Nov 1
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HW3, HW3 solution
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9
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Nov 8
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Monday-Tuesday is Fall Break, One Theorem, Two Corollaries, Four Weeks
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10
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Nov 15
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HW4, HW4 solution
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11
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Nov 22
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12
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Nov 29
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HW5, HW5 solution
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13
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Dec 6
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Boxing Day Handout, see also December 2010 Schedule. Some Class Notes
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F
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Dec 13
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Final exam, Tuesday December 14 10-1, Bahen 6183
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Register of Good Deeds
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Add your name / see who's in!
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See Non Commutative Gaussian Elimination
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In Preparation
The information below is preliminary and cannot be trusted! (v)
This assignment is due at class time on Tuesday, November 30, 2010.
Solve the following questions
Problem 1. Prove that a ring is a PID iff it is a UFD in which for every non-zero .
Problem 2. (Selick) In a ring , and element is called "nilpotent" if for some positive , . Let be the set of all nilpotent elements of .
- Prove that if is commutative then is an ideal.
- Give an example of a non-commutative ring in which is not an ideal.
Problem 3. (comprehensive exam, 2009) Let be a commutative ring. Show that a polynomial is invertible in iff its constant term is invertible in and the rest of its coefficients are nilpotent.
Problem 4. (Lang) Show that the ring is a PID and hence a UFD. What are the units of that ring?
Problem 5. (Dummit and Foote) In , find the greatest common divisor of and , and express it as a linear combination of these two elements.
Problem 6. Show that the quotient ring is not a UFD.
Problem 7. (Dummit and Foote) Prove that the quotient of a PID by a prime ideal is again a PID.