AKT-09/HW1: Difference between revisions

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# <math>P</math> descends to a Hopf algebra morphism <math>{\mathcal A}^r\to{\mathcal A}</math>, and if <math>\pi:{\mathcal A}\to{\mathcal A}^r</math> is the obvious projection, then <math>\pi\circ P</math> is the identity of <math>{\mathcal A}^r</math>. (Recall that <math>{\mathcal A}^r={\mathcal A}/\langle\theta\rangle</math>).
# <math>P</math> descends to a Hopf algebra morphism <math>{\mathcal A}^r\to{\mathcal A}</math>, and if <math>\pi:{\mathcal A}\to{\mathcal A}^r</math> is the obvious projection, then <math>\pi\circ P</math> is the identity of <math>{\mathcal A}^r</math>. (Recall that <math>{\mathcal A}^r={\mathcal A}/\langle\theta\rangle</math>).
# <math>P^2=P</math>.
# <math>P^2=P</math>.

'''Idea for a good deed.''' Later than October 13, prepare a beautiful TeX writeup (including the motivation and all the details) of the solution of this assignment for publication on the web. For all I know this information in this form is not available elsewhere.


'''Mandatory but unenforced.''' Find yourself in the class photo and identify yourself as explained in the [[AKT-09/Class Photo|photo page]].
'''Mandatory but unenforced.''' Find yourself in the class photo and identify yourself as explained in the [[AKT-09/Class Photo|photo page]].

Revision as of 17:34, 28 September 2009

Solve the following problems and submit them in class by October 13, 2006:

Problem 1. If and then (as what one would expect by looking at degrees of polynomials) and where and is the multiplication of rationals. (See 090924-2, minute 36:01).

Problem 2. Let be the multiplication operator by the 1-chord diagram , and let be the adjoint of multiplication by on , where is the obvious dual of in . Let be defined by

Verify the following assertions, but submit only your work on assertions 4,5,7,11:

  1. , where is the identity map and where for any two operators.
  2. is a degree operator; that is, for all .
  3. satisfies Leibnitz' law: for any .
  4. is an algebra morphism: and .
  5. satisfies the co-Leibnitz law: (why does this deserve the name "the co-Leibnitz law"?).
  6. is a co-algebra morphism: (where is the co-unit of ) and .
  7. and hence , where is the ideal generated by in the algebra .
  8. If is defined by
    then for all .
  9. .
  10. descends to a Hopf algebra morphism , and if is the obvious projection, then is the identity of . (Recall that ).
  11. .

Idea for a good deed. Later than October 13, prepare a beautiful TeX writeup (including the motivation and all the details) of the solution of this assignment for publication on the web. For all I know this information in this form is not available elsewhere.

Mandatory but unenforced. Find yourself in the class photo and identify yourself as explained in the photo page.

AKT-09-ClassPhoto.jpg