Generic selectors
Exact matches only
Search in title
Search in content
Post Type Selectors

Edme Mariotte

Edme Mariotte icon
17/07/2026

🗓️

🌱Circa 1620 – Til-Châtel, France.
🍂May 12, 1684 – Paris, France.

🌟 Su gran aportación

Edme Mariotte independently described the relationship between gas pressure and volume, known as Boyle-Mariotte’s law, contributing to the quantitative study of fluids
«Nature never acts in vain»
Edme Mariotte portrait

🧐 ¿Sabias qué?

Edme Mariotte was a highly ingenious researcher who used his discovery of the ocular blind spot to perform parlor tricks before the royal court of Louis XIV. He would place a small coin to the side of a courtier’s visual field and ask them to fix their gaze on a central point; when the coin aligned with the optic nerve, it seemed to disappear magically, amusing the monarch.

🏅 Premios y distinciones

Developing his scientific work in the 17th century, before the creation of modern academic award systems, Mariotte received no formal accolades during his lifetime. Nonetheless, his prestige in experimental physics and plant physiology earned him an invitation as a founding member of the French Academy of Sciences upon its inauguration in 1666.

📚 Su nombre en la ciencia

➤ Boyle-Mariotte’s Law

Ideal gas law stating that, at a constant temperature, the volume of a fixed amount of gas is inversely proportional to the pressure it exerts.

❓ ¿Quién fue Edme Mariotte?

Edme Mariotte was a French physicist and Catholic priest who became one of the founding members of the Paris Academy of Sciences. He dedicated his life to meticulous experimentation in areas ranging from hydraulics and optics to meteorology. Despite working independently from his British contemporaries, his rigorous approach to experimental physics led him to identical conclusions regarding gas behavior. His laboratory precision and insistence on the repeatability of experiments helped establish the modern scientific method in 17th-century Europe.

🌍 El mundo en su época

In the mid-17th century, the study of gases lacked reproducible quantitative principles. Scientists did not understand the exact relationship between the pressure exerted on a gas and the volume it occupied, which limited the development of functional air pumps, precision barometers, and advanced water distribution systems in colonial cities.

Hazte gigante

Tu camino para ser un gigante del conocimiento comienza con estos cursos gratuitos de primer nivel
free energy & matter transfer course
Free mode

The Basics of Transport Phenomena

free aerodynamics course
Free mode

Flight Vehicle Aerodynamics

free hypersonic aerodynamics course
Free mode

Hypersonics – from Shock Waves to Scramjets

🔬 Su legado a la ciencia

Edme Mariotte revolutionized science by independently discovering Boyle’s Law (often called Boyle-Mariotte’s Law) in 1676, stating that the volume of a gas is inversely proportional to its pressure at a constant temperature. In optics, he made an astonishing discovery by experimentally proving the existence of the blind spot in the human eye’s retina. He also made major contributions to hydrodynamics, analyzing water flow in pipes and artificial jets.

👣 Huella en el mundo actual

The legacy of Edme Mariotte remains essential to contemporary fluid engineering and medicine. His gas law is a core component of the ideal gas law, critical for designing internal combustion engines, industrial refrigeration systems, and scuba diving equipment. His studies on water flow continue to inform civil engineering calculations for sewage and running water networks.

🏃‍♂️ La carrera de relevos

📥 El testigo que recibió

The experimental breakthroughs of Edme Mariotte were inspired by previous atmospheric pressure investigations conducted by Evangelista Torricelli and Blaise Pascal, as well as scientific correspondences regarding the nature of air circulating through Europe at the time.

📤 El testigo que entregó

The rigorous work of Edme Mariotte regarding air elasticity validated and complemented the mechanical studies of Robert Boyle in England. His precise optical and anatomical observations served as a baseline for later scientists to deepen the understanding of human vision physiology and nervous system structure.

Otros gigantes que querrás conocer

Blaise Pascal

Blaise Pascal

1623

 –

1662
Gilbert Newton Lewis

Gilbert Newton Lewis

1875

 –

1946
Arquímedes

Arquímedes

287 a.C.

 –

212 a.C.

Herramientas

Calculadora científica

Powered by Desmos

Diccionario científico

Powered by Wikipedia

Premio mejor plataforma online para educación STEM 2026

Cargando clima y ubicación...

Para aprender y experimentar

Lleva tus conocimientos al siguiente nivel con kits de ciencia y herramientas prácticas que conectan la teoría con la experimentación

Imprescindibles para profesores y estudiantes

Próximos eventos

Aprende con los mejores cursos