![Draw the diagram for the diamagnetic liquid kept in the watch glass shows a rise in the middle (when placed on two dissimilar magnetic poles). Draw the diagram for the diamagnetic liquid kept in the watch glass shows a rise in the middle (when placed on two dissimilar magnetic poles).](https://www.vedantu.com/question-sets/809066cc-ab61-4678-be62-1a3c4becc51b1278845359692327597.png)
Draw the diagram for the diamagnetic liquid kept in the watch glass shows a rise in the middle (when placed on two dissimilar magnetic poles).
![A thin diamagnetic rod is placed vertically between the poles of an electromagnet When the current in the electromagnet is switched on, then the diamagnetic rod is pushed up, out of the A thin diamagnetic rod is placed vertically between the poles of an electromagnet When the current in the electromagnet is switched on, then the diamagnetic rod is pushed up, out of the](https://www.vedantu.com/question-sets/57be236e-721e-48ed-a1e6-9d0f4c57020d4797829581067408694.png)
A thin diamagnetic rod is placed vertically between the poles of an electromagnet When the current in the electromagnet is switched on, then the diamagnetic rod is pushed up, out of the
![Fields of force; supplementary lectures, applications to meteorology; . Fig. 18. fluid, which is the oscillation which brings it into water masseswith different motions. Fig. 18, 6 shows the corresponding forcesacting on Fields of force; supplementary lectures, applications to meteorology; . Fig. 18. fluid, which is the oscillation which brings it into water masseswith different motions. Fig. 18, 6 shows the corresponding forcesacting on](https://c8.alamy.com/comp/2AX6M2N/fields-of-force-supplementary-lectures-applications-to-meteorology-fig-18-fluid-which-is-the-oscillation-which-brings-it-into-water-masseswith-different-motions-fig-18-6-shows-the-corresponding-forcesacting-on-the-poles-of-an-induced-magnet-of-diamagnetic-polarityand-as-is-evident-at-once-from-the-similarity-of-these-figuresthe-heavy-body-in-the-hydrodynamic-field-will-be-acted-upon-by-aforce-which-oppositely-corresponds-to-the-force-to-which-a-diamag-netic-body-is-subject-in-the-magnetic-field-the-well-known-laws-for-the-motion-of-magnetic-and-diamag-netic-bodies-in-the-magneti-2AX6M2N.jpg)
Fields of force; supplementary lectures, applications to meteorology; . Fig. 18. fluid, which is the oscillation which brings it into water masseswith different motions. Fig. 18, 6 shows the corresponding forcesacting on
Magnetic systems generating HGMF. Bold arrows indicate the direction of... | Download Scientific Diagram
![Mattertronics for programmable manipulation and multiplex storage of pseudo- diamagnetic holes and label-free cells | Nature Communications Mattertronics for programmable manipulation and multiplex storage of pseudo- diamagnetic holes and label-free cells | Nature Communications](https://media.springernature.com/full/springer-static/image/art%3A10.1038%2Fs41467-021-23251-4/MediaObjects/41467_2021_23251_Fig1_HTML.png)