This site is devoted to mathematics and its applications. Created and run by Peter Saveliev.

# Difference between revisions of "Peter Saveliev"

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Hello! My name is Peter Saveliev (rhymes with “leave”). I am a professor of mathematics at Marshall University, Huntington WV, USA. | Hello! My name is Peter Saveliev (rhymes with “leave”). I am a professor of mathematics at Marshall University, Huntington WV, USA. | ||

− | + | Books: | |

− | *'' | + | *''Topology Illustrated'' |

− | *'' | + | *''Calculus Illustrated'' |

− | *'' | + | **''Volume 1 Precalculus |

− | *'' | + | **''Volume 2 Differential Calculus'' |

− | + | **''Volume 3 Integral Calculus'' | |

− | * | + | **''Volume 4 Calculus in Higher Dimensions '' |

− | *'' | + | **''Volume 5 Differential Equations'' |

− | *'' | + | *''How Swords Cut'' |

− | + | *''Linear Algebra Illustrated'' | |

The calculus series includes parts of ''Discrete Calculus'', which is based on a simple idea: | The calculus series includes parts of ''Discrete Calculus'', which is based on a simple idea: |

## Latest revision as of 13:13, 20 August 2020

Hello! My name is Peter Saveliev (rhymes with “leave”). I am a professor of mathematics at Marshall University, Huntington WV, USA.

Books:

*Topology Illustrated**Calculus Illustrated**Volume 1 Precalculus**Volume 2 Differential Calculus**Volume 3 Integral Calculus**Volume 4 Calculus in Higher Dimensions**Volume 5 Differential Equations*

*How Swords Cut**Linear Algebra Illustrated*

The calculus series includes parts of *Discrete Calculus*, which is based on a simple idea:
$$\lim_{\Delta x\to 0}\left( \begin{array}{cc}\text{ discrete }\\ \text{ calculus }\end{array} \right)= \text{ calculus }$$

They are sold on Amazon:

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I have been involved in research in algebraic topology and several other fields but nowadays I think this is a pointless activity. My non-academic projects have been: digital image analysis, automated fingerprint identification, and image matching for missile navigation/guidance.

- Once upon a time, I took a better look at the poster of
*Drawing Hands*by Escher hanging in my office and realized that what is shown isn't symmetric! To fix the problem I made my own picture called*Painting Hands*:

Such a symmetry is supposed to be an involution of the $3$-space, $A^2=I$; therefore, its diagonalized matrix has only $\pm 1$ on the diagonal. These are the three cases:

- (a) One $-1$: mirror symmetry, then pen draws pen. No!
- (b) Two $-1$'s: $180$ degrees rotation, the we have two right (or two left) hands. No!
- (c) Three $-1$'s: central symmetry. Yes!

- - Why is discrete calculus better than infinitesimal calculus? - Why? - Because it can be integer-valued! - And? - And the integer-valued calculus can detect if the space is non-orientable! Read Integer-valued calculus, an essay that makes a case for discrete calculus by appealing to topology and physics.

- - The political “spectrum” might be a circle! - So? - Then there can be no fair decision-making system! Read The political spectrum is a circle, an essay based on the very last section of the topology book.