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Fermat's grand theorem demonstration model

A technology of Fermat's last theorem and models, applied in teaching models, educational tools, instruments, etc., to achieve the effects of reducing the scope of proof, simplifying the proof process, and saving proof time

Active Publication Date: 2018-04-17
李中平
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0009] Affected by the nature of exponential operations or function changes, there is no ternary function F(x, y, z)=x in the world. n +y n -z n Stereoscopic images in three-dimensional space and about the binary function G(x, y)=x n +y n The plane image in two-dimensional space is used to visually represent Fermat's last theorem and Fermat's inequality, and the application of the image method of the function to study Fermat's last theorem has no effect

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0095] Embodiment 1: see figure 1 , Figure 14 and Figure 23 , insert the three-time display board 5 into the power-on display concave groove of the display board on the inner side of the two vertical wall panels at the top of the base 14, insert the power plug, and turn on the power, the rectangle of the zeroth column in the zeroth row in the upper left corner of the three-time display board 5 The power indicator light in the grid glows red, indicating that the integrated circuit is in a normal state; on the upper surface of the three-time display board 5, touch and close the switch K in the rectangular grid where the 7th column in the 6th row is located, and the display in the rectangular grid The third power of and 559 are not only equal to the third power 6 of row 6 in column 0 3 Add 7 to the power of 7 in column 7 in row 0 3 , also shows the power of 3 and 559 between the power of 8 in row 0, column 8 3 and the third power of column 9 9 3 between, get 8 3 3 +7 3 3...

Embodiment 2

[0096] Example 2: see figure 1 , Figure 15 and Figure 23 , insert the four-time display board 6 into the power-on display concave groove of the display board on the inner side of the two vertical wall panels above the base 14, insert the power plug, turn on the power, and the 0th column in the 0th row at the upper left corner of the four-time display board 6 The power indicator light in the rectangular grid glows red, and the integrated circuit is in a normal state; on the upper surface of the quadratic display board 6, touch and close the switch K in the rectangular grid where the seventh column in the sixth row is located, and the rectangular grid is displayed. The fourth power sum of 10657 in the grid is not only equal to the fourth power 8 of row 8 in column 0 4 Add 9 to the fourth power of column 10 in row 0 4 , which also shows the fourth power of 10 and 10657 between the fourth power of 10 in row 0 and column 10 4 and the fourth power 11 of column 11 4 between, g...

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Abstract

A Fermat's grand theorem demonstration model is disclosed and relates to the field of teaching of mathematics in primary, secondary and tertiary schools and the field of scientific research. The invention is aimed at constructing a mathematical model for Fermat's grand theorem and solving two problems of mathematics teaching and popularization of science; the demonstration model consists of a number of rectangular square (1), a number of universal Integrated circuit boards (2), a number of positive Integer nth power formula plates (3), a number of touch screen switch cover plates, a third power display panel (5), a fourth power display panel (6), a fifth power display panel (7), a sixth power display panel (8), a seventh power display panel (9), an eighth power display panel ( 10), a ninthpower display panel (11), an nth power universal display panel (12), an nth power variant four-color display panel (13) and a base seat (14); the third power display panel (5), the fourth power display panel (6), the fifth power display panel (7), the sixth power display panel (8), the seventh power display panel (9), the eighth power display panel (10), the ninth power display panel (11), the nth power universal display panel (12), the nth power variant four-color display panel (13) and the base seat (14) are made via via a Fermat inequality parameter method and an assembly display panel method; all display panels are orderly inserted horizontally into opposite grooves of inner sides of wall panels erected before and after the base seat (14); different colors of the rectangular squares on the display panels or lights of electric lights in an integrated circuit are used to show Fermat inequalities and demonstrate that Fermat's grand theorem is true, and the positive integer n is greater than or equal to 3.

Description

technical field [0001] A demonstration model of Fermat's last theorem, which involves the field of mathematics teaching in primary and secondary schools, the research field of colleges and universities and scientific research institutes, and the field of popularization of mathematics in urban and rural communities. The lost proof of Ma's last theorem solves the technical problem of how to apply polynomial multiplication formula or Newton's binomial theorem to prove Fermat's last theorem, and opens up an in-depth understanding of Fermat's last theorem in junior high school mathematics teaching, high school mathematics exploration and social science popularization activities The way of cognition, so as to cultivate the readers' quality of mathematical science and the ability of applying mathematical science to invent, create and innovate continuously. Background technique [0002] In ancient my country, in the construction of houses, bridges, furniture, etc., the working peopl...

Claims

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Application Information

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IPC IPC(8): G09B23/02
CPCG09B23/02
Inventor 李中平
Owner 李中平
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