![On the Loadstone and Magnetic Bodies and on the Great Magnet the Earth | work by Gilbert | Britannica On the Loadstone and Magnetic Bodies and on the Great Magnet the Earth | work by Gilbert | Britannica](https://cdn.britannica.com/99/191599-050-33CEF9A9/William-Gilbert.jpg?w=400&h=300&c=crop)
On the Loadstone and Magnetic Bodies and on the Great Magnet the Earth | work by Gilbert | Britannica
![William Gilbert - 17th century physician, scientific rebel, and forefather of electrospinning — Akron Ascent Innovations William Gilbert - 17th century physician, scientific rebel, and forefather of electrospinning — Akron Ascent Innovations](https://images.squarespace-cdn.com/content/v1/5793e055e6f2e155ae8d79d9/1548706039734-330O22W53K2V4OPK81KY/Gilbert-1.jpg)
William Gilbert - 17th century physician, scientific rebel, and forefather of electrospinning — Akron Ascent Innovations
![The Magnetic Attraction of William Gilbert, pioneer of geomagnetism | FifteenEightyFour | Cambridge University Press The Magnetic Attraction of William Gilbert, pioneer of geomagnetism | FifteenEightyFour | Cambridge University Press](http://www.cambridgeblog.org/wp-content/uploads/2021/04/Figure-4.4-de-magnete-page-155-462x290.jpg)
The Magnetic Attraction of William Gilbert, pioneer of geomagnetism | FifteenEightyFour | Cambridge University Press
![Chp. 21 Magnetism. MAGNETS Magnets are pieces of metal (iron, nickel and steel) that work according to rules similar to electric charges. All magnets. - ppt download Chp. 21 Magnetism. MAGNETS Magnets are pieces of metal (iron, nickel and steel) that work according to rules similar to electric charges. All magnets. - ppt download](https://images.slideplayer.com/25/7898575/slides/slide_4.jpg)
Chp. 21 Magnetism. MAGNETS Magnets are pieces of metal (iron, nickel and steel) that work according to rules similar to electric charges. All magnets. - ppt download
![Illustration from De Magnete, etc. by William Gilbert (1600, translated 1900), showing an instrument for measuring declination; 1600; On the Magnet, etc., available freely at Project Gutenberg; William Gilbert (1544–1603) Alternative names Illustration from De Magnete, etc. by William Gilbert (1600, translated 1900), showing an instrument for measuring declination; 1600; On the Magnet, etc., available freely at Project Gutenberg; William Gilbert (1544–1603) Alternative names](https://c8.alamy.com/comp/TX4B2X/illustration-from-de-magnete-etc-by-william-gilbert-1600-translated-1900-showing-an-instrument-for-measuring-declination-1600-on-the-magnet-etc-available-freely-at-project-gutenberg-william-gilbert-15441603-alternative-names-william-gilberd-description-english-philosopher-physician-engineer-physicist-and-astronomerphysician-to-elizabeth-i-and-james-i-and-scientific-researcher-into-magnetism-and-electricity-date-of-birthdeath-24-may-1544-10-december-1603-location-of-birthdeath-colchester-london-work-location-england-authority-control-q192706-viaf1072-TX4B2X.jpg)
Illustration from De Magnete, etc. by William Gilbert (1600, translated 1900), showing an instrument for measuring declination; 1600; On the Magnet, etc., available freely at Project Gutenberg; William Gilbert (1544–1603) Alternative names
![William Gilbert - 17th century physician, scientific rebel, and forefather of electrospinning — Akron Ascent Innovations William Gilbert - 17th century physician, scientific rebel, and forefather of electrospinning — Akron Ascent Innovations](https://images.squarespace-cdn.com/content/v1/5793e055e6f2e155ae8d79d9/1489371679326-HXC9IO6OZANZWBEHI3U4/image-asset.jpeg)
William Gilbert - 17th century physician, scientific rebel, and forefather of electrospinning — Akron Ascent Innovations
![Illustration of a declinometer from De Magnete by William Gilbert, published in 1600. Magnetic declination is the horizontal angle between the true geographic North Pole and the magnetic north pole, as figured Illustration of a declinometer from De Magnete by William Gilbert, published in 1600. Magnetic declination is the horizontal angle between the true geographic North Pole and the magnetic north pole, as figured](https://c8.alamy.com/comp/G169DY/illustration-of-a-declinometer-from-de-magnete-by-william-gilbert-G169DY.jpg)
Illustration of a declinometer from De Magnete by William Gilbert, published in 1600. Magnetic declination is the horizontal angle between the true geographic North Pole and the magnetic north pole, as figured
![William Gilbert Demonstrating the Magnet before Elizabeth I, 1598 - Ernest Board | WikiOO.org - Encyclopedia of Fine Arts William Gilbert Demonstrating the Magnet before Elizabeth I, 1598 - Ernest Board | WikiOO.org - Encyclopedia of Fine Arts](https://img.wikioo.org/ADC/Art.nsf/O/AQVG6P/$File/Ernest-Board-William-Gilbert-Demonstrating-the-Magnet-before-Elizabeth-I-1598.jpg)