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TAYLORRobert Taylor Hooke is my scientist
Hooke's law of elasticity is used to describe how a material body is deformed by stress (at its simplest). Imagine a weight suspended on a spring. The spring will lengthen according to Hooke's law. The law has application in civil and mechanical engineering wherever materials are placed under stress.
In mechanics, and physics, Hooke's law of elasticity is an approximation that states that the amount by which a material body is deformed (the strain) is linearly related to the force causing the deformation (the stress). Materials for which Hooke's law is a useful approximation are known as linear-elastic or "Hookean" materials. Hooke's law is named after the 17th century British physicist Robert Hooke. He first stated this law in 1676 as a Latin anagram[1], whose solution he published in 1678 as Ut tensio, sic vis, which means: " As the extension, so the force. " For systems that obey Hooke's law, the extension produced is directly proportional to the load: : ... where: : is the distance that the spring has been stretched or compressed away from the equilibrium position, which is the position where the spring would naturally come to rest (usually in meters), : is the restoring force exerted by the material (usually in newtons), and : is the force constant (or spring constant). The constant has units of force per unit length (usually in newtons per meter). When this holds, we say that the behavior is linear. If shown on a graph, the line should show a direct variation. There is a negative sign on the right hand side of the equation because the restoring force always acts in the opposite direction of the xdisplacement (when a spring is stretched to the left, it pulls back to the right).
alice keys, the name is Amy Keys (not Alice), Lynne Fiddmont-Linsey, and Connie Jackson-Comegys
The potential energy in a guitar string can be calculated from PE = integral F dx, where x is the distance the string is stretched. Using Hooke's Law, F=kx, where k is the elastic modulus, and x is the distance the string is stretched. Putting it together, PE = integral kx dx PE = 1/2 k x^2. The value of x varies depending on the tuning and the size of the guitar, and the value of k varies depending on the type of string used. As an example, say a typical guitar string has a tension of about 60 Newtons, and is stretched by 5 cm. From this we can find k = 1200 kg/s^2. Fully stretched, PE = 1/2 (1200) (0.05)^2 = 1.5 Joules.
Robert Hooke mother is Ida Hooke. John Hooke (The father of Robert Hooke) married Ida.
ida hooke
Robert Hooke was born in 1635 in Freshwater, Isle of Wight, England. He was the youngest of four children in his family. His father was John Hooke, a clergyman, and his mother was Cecily Gyles.
Hid fater was John Hooke!!!!!!!!
hookes book was about cells insect and more
Hooke's law of Elasticity.
Robert Hooke's middle name was not officially recorded or documented. It is believed that he did not have a middle name.
It is not known when Robert Hooke's mom died. What is known is that his father died in 1648 when Robert was 13.
Robert Hooke, FRS (18 July 1635 - 3 March 1703)
Robert Hooke described the parts of cork he saw under a microscope as "cells" in 1665. He said this because they looked like jail cells.
, I can awnser your question. Well mr.hooke could have call what he first saw hookes but instead he called them cells
Robert Hooke was the first person to discover cells, but what he was observing was a dead plant cell. The first person who observed living cells was Leeuwenhoek.