What did scientist Hooke invent? What Hook discovered

Since childhood, his love and innate nature have laid the foundation for Hooke's remarkable achievements. So what did Hooke invent? He invented many instruments, such as a compound microscope, a pendulum clock, a wheel barometer, an ocean sounder, a seawater sampler, etc.

His invention earned him the title of "Father of Modern Instrument Invention".

After Hooker invented the microscope, he couldn't put it down, he miraculously discovered cells under the microscope, he found that all living things have multiple cells, these cells are infinitely magnified under his microscope, restoring the original appearance of the cell. In 1665 he wrote the book "Microscope", in which he described in detail the usefulness of the microscope and the process by which he discovered the cell.

Hooke also invented Hooke's law, Hooke's law was put forward by Hooke in 1678, Hooke's law is briefly described, when we see the elastic deformation of the spring, the elastic force of the spring is represented by the letter f, the elongation and compression of the spring are proportional to the letter k, x represents the two, and the formula is f=k·fok is the elastic coefficient of the substance, and the material determines its properties, and has nothing to do with other factors. Hooke's law actually says that in the determination of the material, tension or contraction is caused by external forces. Hooker made many inventions, and his inventions are still remembered by many people today.

From Hooke's profile, it can be seen that Hooke was born in 1635 and died in 1703. He was born on the Isle of Wight, England, and died in London, England. Hooke was a well-known British scientist and naturalist.

Hook was born into a family of priests, and Hook was not very good when he was a child, he was often sick, and his personality was very eccentric, he did not like to play with children, but tossed some mechanical things at home, Hook made wooden clocks when he was less than ten years old. And Hooker's talent was discovered in the process.

After the death of Hooke's father, Hooke's life became even more difficult, and in order to earn a living, Hook was sent to London as an apprentice. Because of his father's influence, Hook had some experience with church singing, so Hook served as the choir leader at this time. In addition to this, Hook also worked as a servant in the homes of wealthy people.

However, Hook was also lucky, he stumbled upon a headmaster who took a fancy to Hooke's talents, and with his help, Hook had the opportunity to go to school.

Hook excelled in his studies as a work-study student at Oxford University. The University of Oxford opened up a niche for Hooke, where he met many talented scientists. Hooke actively participated in the activities organized by his scientists, and in the activities, Hooke's talent gradually became apparent.

From Hooke's profile, it can be seen that although Hooke's life did not get a high degree of education, this did not hinder his research and exploration, he dedicated his life to scientific experiments, and all of them have achieved outstanding achievements. Hooker died in London at the age of 68, completing his illustrious life. <>

Hooke's life made great contributions to science. Hooke's contributions are reflected in a number of ways, including optics – Hooke's discovery of the wave theory of light. This theory means that the propagation of light and the propagation of water waves are very similar, so Hooke began to further research, through a large number of optical experiments, Hooke finally discovered the theory of optics, and applied this theory to practice, inventing a variety of optical instruments such as microscopes.

Hooke's contribution also includes the contribution to mechanics, and this contribution is the most prominent contribution of Hooke's life, which can be summed up as Hooke's law. This law mainly expresses that the degree of deformation of elasticity is positively correlated with the magnitude of the force. Hu Ke's contributions are also reflected in biology and astronomy, where he used a telescope he built to observe the trajectory of Mars; Observing the structure of the wood chips with his own microscope, he found the cells of the plant.

Hooke's contribution is also reflected in the invention and creation, Hooke spent his life studying various theoretical knowledge and translating this conclusion into practice to invent a variety of new products. In addition, Hooke made outstanding contributions to architecture and design, when a fire broke out in London, which destroyed many buildings, and in the process of reconstruction, Hooke also participated in the design, several of which were designed by Hooke.

Hooke's contribution is also reflected in the creation of machinery, because Hooke's inventions and creations are embodied in machinery, so his contribution to the field of machinery is also very large, in addition, Hooke also published a book - "Microscopic Cartography", in this book, Hooke will show his discoveries in the way of drawing, so that readers can understand the theoretical knowledge more clearly, which is also one of his contributions. <>

Is Hook or Newton good?

Hooke discovered the wave theory of light. This theory means that the propagation of light is very similar to the propagation of water waves, so Hooke began to further research, through a large number of optical experiments, Hooke finally discovered the theory of optics, and applied this theory to practice, inventing a variety of optical instruments such as microscopes.

Light is a physical term whose essence is a stream of photons in a specific frequency band. A light source emits light because the electrons in the light source gain extra energy. If the energy is insufficient to jump to a more outer orbit, the electrons will accelerate and release energy in the form of waves.

If the transition is followed by just enough to fill the vacancy in the orbit and from the excited state to the stable state, the electron stops transitioning. Otherwise, the electrons jump back to their previous trajectory and release energy in the form of waves.

Hooke invented a variety of machinery, including universal joints, air pumps, clockwork-controlled balances, wheel-shaped barometers, and many other instruments.

In terms of physics research, he proposed the fundamental law that describes the elasticity of materials - Hooke's law.

In mechanical engineering, he designed and built vacuum pumps, microscopes and telescopes, and wrote the book "Microscopy" from his observations with a microscope, after which he named the word cell.

Tammonier, designed a truly functional sewing machine.

Robert Hooke, British scientist, naturalist, inventor. He was born on 18 July 1635 in the village of Freiswater, Isle of Wight, England, and died in London on 3 March 1703. In the field of physics research, he proposed the fundamental law describing the elasticity of materials - Hooke's law, and in mechanical engineering, he designed and built vacuum pumps, microscopes and telescopes.

Hooker built a variety of machines, including universal joints. After the Great Fire of London in 1666, he designed some important buildings in the reconstruction of the city. He invented a variety of instruments, such as the air pump, the clockwork-controlled balance, and the wheel-shaped barometer.

Tammonier, in 1830, designed a truly functional sewing machine. In 1857 he died in poverty. -- Common sense science and technology.

Hooker was a first-class technical experimental physicist, he worked as a goldsmith, carpenter, etc., and produced anemometers, climate clocks, rain gauges, hygrometers and other instruments.