desargues theorem 3d models

Desargues' theorem in space and in the plane. Two planes (wood), each with a triangle (black); the side extensions (green) intersect pairwise on the line of intersection of the two planes, this is the Desargue line. ...The connection lines of the...

... ...It's named after Girard Desargues, who first described it as an example of a geometric configuration in which ten points lie on a conic section and five lines intersect the conic section in such a way that each line intersects two of the points.

In mathematics, the theorem known as Pythagoras' relation—or simply the Pythagorean theorem—is a fundamental concept in Euclidean geometry that links the three sides of a right-angled triangle. It asserts that the square of the hypotenuse (the side...

Pythagoras’ Theorem shows the relationship between the three sides of an equilateral triangle – a^2+b^2=c^2. ...This 3D print shows that relationship in tactile format for students with vision impairment.

... recreate it, you'll require four equilateral triangles and two base pieces. The base template is designated as PTB, symbolizing the Pythagorean Theorem base. ...This educational tool is ideal for teaching young minds about this fundamental equation.

Sígueme en Instagram @espacio_feliz The theorems are absolute truths, someone has already proven them and no one can deny that theorem is true. A clear example is Pythagoras' theorem, which states that every right triangle, the length of the...

The binomial theorem is a fundamental algebraic theorem used to expand expressions of the form (a + b) n, where n can be any natural number. Due to its abstract nature, this 3D model helps students grasp a geometrical understanding of the formula...

Triangles for proving the Pythagorean theorem.

The right triangle altitude theorem or geometric mean theorem is a result in elementary geometry that describes a relation between the altitude on the hypotenuse in a right triangle and the two line segments it creates on the hypotenuse. ...It states...

This model can be filled with some fluid or anything else, that can fall through the connecting corridors and is used to prove Pythagorean theorem. ...To complete that model, you need to cover it with plexiglass or something like that.

... a rectangular prism with a right triangle embedded on one side and another passing through its core. ...The design effectively illustrates the application of the Pythagorean theorem in calculating the diagonal length of a three-dimensional object.

This model is used as a geometric proof of the Pythagorean theorem. ...To that proof you need to print 8 x triangle, 1 x large, medium and small square.

... By using this model, we aimed to help students grasp the geometric significance of the Pythagorean theorem. Following construction on a 3D printer, students were able to visually comprehend and confirm the theorem's proof in their own hands.

The product demonstrates the Pythagoras Theorem in a visually engaging way for students learning mathematics. It is particularly beneficial for blind kids who can understand this concept through tactile means. At its core, the central triangle...

I designed this model to illustrate the Nicomachus theorem from number theory, which describes how the sum of cubes of the first N integers is equal to the square of their total. Specifically, it states that 1^3 + 2^3+ 3^3 + ... N^3 = (1 + 2 + 3 +...

Euclidean theorem for right triangle describes a relation between the cathetus and two line segments that altitude creates on the hypotenuse. Each leg of the triangle is the mean proportional of the hypotenuse and the segment of the hypotenuse that...

This is a simple visualization for the inscribed angle theorem that is supposed to make teaching geometry easier. As a student I think that learning geometrical principles is way more interesting when you can try things in real life and with your own...

This models visualizes the theorem of Thales. The fixed piece symbolizing on vertex can be moved along the semicircle while being connected to the other two verteces. Some minor post-precessing (e.g. filing the pins and/or holes) might be...

I found four educational videos of visual proofs for my students which I am using with my classes to supplement our learning on the Pythagorean Theorem. These videos feature visual aids exclusively, eliminating any reliance on audio explanations that...

I designed this visual aid for math teachers to bring the Pythagorean theorem to life in an engaging way. The cubes fill up the A and B sides before combining to form the C side. To maximize its effectiveness, magnets fit perfectly into the small...

This particular puzzle has more pieces than my other Pythagorean Theorem puzzles and features additional triangles, as well as two frame components that fit together snugly (printing these components separately resolved an issue with attempting to...

This allows visual learners to work with the Pythagorean Theorem and see how it really works, so they don't just memorize the formula but also understand what that formula means. (B.B., C.F., and R.H., MAT 363 Fall '16) Inspired by xoan's version:...

I designed a box showcasing the Pythagorean theorem for a math teacher colleague, demonstrating how students could build it themselves. To make this box, I used a laser cutter and 5mm-thick HDF wood. I combined two different SVG files, adjusting...

# Pythagorean Theorem Pieces One of my favorite Pythagorean proofs involves a square having sides that are "a+b" long. This is a physical example of that proof with two different sizes of "a" and "b". * Print four of the right triangles and one of...

This is a Taylor's Theorem approximation created in Mathematica version 10 for George Mason University Math 493: Mathematics Through 3D Printing. The project demonstrates Taylor's theorem by giving an approximation to the cosine function. The Taylor...

I discovered three engaging videos featuring visual demonstrations of the Pythagorean Theorem, which I've chosen to incorporate into my classes. I appreciate these videos because they solely focus on visuals, offering students an immersive experience...

This is a simple manipulative that shows how the Pythagorean Theorem can be proven using rearrangement.We start with a tray with a fixed internal area equal to (a+b) squared and four identical triangles with sides of length a, b and c.If we arrange...

This allows visual learners to manipulate the theorem, making it easier for them not only to memorize the formula but also to understand its meaning. (B.B., C.F., and R.H., MAT 363 Fall '16) Citation: Our design project was inspired by mshscott's...

These two distinct shapes, Region E and Region F, are designed to be a crucial part of a multivariable calculus lesson on three-dimensional solid regions and the principles of Fubini's Theorem and Cavalieri's Principle. Students receive two sets of...

... the Pythagorean Theorem using volume. ...This is a great manipulative toy that can be implemented at the high school level for an Algebra 1 class to help the students explore the topic prior to learning the theorem. C. ...Moore 12/16/2021