Linked Data Explorer

"Program 1. Derivatives: The derivative became a popular tool to determine the instantaneous speed and acceleration of a falling body ; Program 2. Inertia: Galileo's law of inertia answered such questions as why objects fall to earth rather than hurtle off into space."
"Explains and demonstrates the functions of derivatives."@en
"Stresses that all physical principles can be described mathematically. Applies this concept in a demonstration of how derivatives became a popular tool to determine the instantaneous speed and acceleration of a falling body."@en
"Program 3. The function of mathematics in physical science and the derivative as a practical tool. Program 4. Galileo risks his favored status to answer the questions of the universe with his law of inertia."@en
"Program 3 explains and demonstrates the functions of derivatives and program 4 discusses law of inertia which states that absolute rest or motion do not exist."@en
"Program 3 in the>>Mechanical Universe Series.<<How the derivative became a popular tool to determine the instantaneous speed and acceleration of a falling body."@en
"The first program explains and demonstrates the functions of derivatives. The second program explains Galileo's principle of inertia."@en
"Explains and demonstrates Galileos principle of inertia and the principle of derivatives."
"A practical mathematical tool makes differentiating any function a simple mechanical task. From a theoretical concept to a practical tool, the derivative rose to determine the instantaneous speed and acceleration of a falling body. The rules of differentiation are essential vocabulary in the mathematical language of physics."@en
"Summary: The function of mathematics in physical science. From a theoretical concept to a practical tool, the derivative helps to determine the instantaneous speed acceleration of a falling body. Differentiation is developed further to calculate how any quantity changes in relation to another."@en
"Deals with the function of mathematics in physical science and the derivative as a practical tool."@en
"Explains and demonstrates the function of mathematics in physical science and the derivative as a practical tool. Explains and demonstrates Galileo's principle of inertia."
"Program 3 deals with the function of mathematics in physical science and the derivative as a practical tool. Program 4 deals with Galileo's efforts to answer questions about the nature of universe, the development of his law of inertia, and the risks that he took in challenging accepted knowledge of the period. Uses computer animation sequences, historical reenactments, and close-up photography of experiments."@en

genre

http://schema.org/genre

"Electronic videos"
"Science films"
"Digital video"@en
"Documentary films"
"Video recordings for the hearing impaired"@en
"Streaming multimedia"@en
"History"
"History"@en

name

http://schema.org/name

"Derivatives ; Inertia"@en
"Derivatives ; Inertia"
"The Mechanical universe ... and beyond. Derivatives. Inertia"
"Derivatives"
"Derivatives"@en
"Derivatives Inertia"@en

workExample

http://schema.org/workExample