Multiple magnets arranged in a matrix under 100mm 509 cell 100mm Water-based Ferrotec Ferrofluid Cell. Early experiments in 2018

Dielectric Inertia Plane Image by Lori-Ann Gardi 100mm cell with her own mixture. Ring of 36 White LEDs around circumference. Multiple Like Poles 100x12mm 509 cell Image by Michael Snyder

1/2" cube on 100x12mm 509 cell with 36 LED RGB ring. Poles facing up and down (from the top). Image by Michael Dee using a Nikon d850 camera with a voightlander 58mm lens. Here's a non-Ferrocell using nano-nickel fluid (my own mix). It's a 62x4mm cell with RGW LED's below and around the outer edge. There is some response visible in the Bloch region. Poles are facing left and right (from the top).

' 'Magnetic Nanoparticle Galaxy' Single white LED centered, below 62mm cell. Sphere magnet on top of cell. Poles top and bottom facing camera. Vortex Spins Multiple disk magnets hand-rotated produce flowing geometry. 100mm Ferrocell Animated Loop by Jayson M.

Multiple magnets under black paper behind 100x12mm '509' cell. Edge-lit 36 RGB LED's in ring. 'Procella' image by Michael Snyder Four magnets fitted into a round aluminum plate below 100x8mm '509' cell. Poles facing up, all in repulsion (same). There are a few extra holes in the bottom plate. Bottom-lit with 36 RGW LED's in ring.

Solenoid with DC current @ 1A 62mm '509' cell with 36 RGW LED's below and around circumference. Two small bar magnets with poles facing up and down (Blue Areas). Single White LED below very dusty 62mm '509' cell. Click on the pix for close up. The dust is amazing! Of course the blue 'haze' emerging from the poles is something to contemplate, too.

5-magnet Halbach Array on top of 100x12mm '509' cell. Side of array facing down. Bottom lit with ring of 36 RGW LED's 5-Magnet Halbach Array. Side of array below 100x12mm '509' cell. Edge lit with ring of 36 RGW LED's

Polar vortex clearly seen here over top of 5-magnet Halbach Array under 100x12mm '509' cell. Edge lit with ring of 36 RGW LED's 2 small, thin rectangle magnets on top of 100x8mm '509' cell. Magnetic poles at each end of magnets. Edge lit with ring of 36 White LED's

3 small cube magnets on top of 62mm cell Bottom lit with ring of 36 RGBW LED's 1.2 Tesla cube magnet under 62mm cell plastic ring inside to block direct light from bottom lit ring of 36 RGBW LED's



Dipole magnet behind 100x12mm cell.

Edge lit with 36 LEDs around circumference.

Blue filtered in Photoshop

Bright spot on right side is debris inside cell. Photo by M. Snyder

Dipole magnet behind 100x12mm cell.

Edge lit with 36 RGBY LEDs.

Looking across top surface of glass at a 30 degree angle.



1400X microscope image of particle chains forming.

Note helical interwoven structures.

Green filter used in Photoshop for added contrast.

Inside 50x2mm cell dark field image by John (Jack) Shearer .

North pole of cylinder magnet behind mirror under

100x12mm cell. Single white light top lit cell at 45 degree

angle. 'Eye of Ellipses' Photo by M. Snyder





Quadrupole (all same polarity) close up view into

center of an edge lit 100x12mm mm cell with 36 RGBY LED's

around circumference. Photo by M. Snyder

Rear lit 50mm cell with multi-colored lights

arranged in a conical manner.

Photo by G. Daigle



This movie shows a cube magnet on top of 62mm

cell. Red 5mW top lit laser moving around circumference

of field. Note red 'wings' diverging from laser Z-axis.



if you can't play this on your computer, click here to watch on Youtube

360 degree rotation of green laser using

quadrupole electromagnetic field.



White and green LED's rear lit 50mm cell.

100X view shows interwoven particle chains.

Image by John (Jack) Shearer

Cylinder magnet covered with black shrink tubing

on top of 50mm cell. Rear lit with small white

incandescent lamp. Great image of field potential at pole.



Dipole magnet behind black paper on rear of

100mm cell. Edge lit with 36 RGBY LEDs around

circumference. Photo by M. Snyder

30X view into 50mm rear white-lit cell.

Magnetic chip 'debris' trapped inside.

This cell was discarded.



Cylinder magnet on top of 50mm rear lit cell using a

small incandescent lamp. Note indent right, center

and bulge left center.

In this movie, I'm holding one cylinder magnet behind

200mm cell and another magnet in front.

Rear lit at 45 degree angle using bright white

Halogen lamp. If movie does not play on your computer click http://youtu.be/QgAvofQ6zHk



Looking into the center of a ring magnet behind

100mm cell. Edge lit with 36 RGBY LEDs around

circumference. Photo by M. Snyder

Quadrupole anti-vortex image selected and

published by APS (American Physical Society)

for their 2012 calendar. 100mm edge lit

RGBY cell by M. Snyder



Broken ring magnet behind black paper, rear of

100mm cell. Edge lit with 36 RGBY LEDs around

circumference. Photo by M. Snyder

Looking at the pole of a cylinder magnet behind

black paper, rear of 100x12mm cell. Edge lit with

36 RGBY LEDs. Photo by M. Snyder



300X movie shows inside 50mm cell. Top lit with white

LED. Magnetic chip 'debris' trapped between the glass.

Note particle chains attracted to top and bottom of chip.

Cylinder magnet on top of 50x2mm cell using glass

with 1/10 wavelength surface accuracy. This cell

appears totally transparent, except where the rear lit

white light becomes scattered by the nanoparticles.



Antivortex quadrupole field with magnets positioned

under black paper behind 100x12mm cell. Edge lit 36 RGBY LED's around cell circumference. Photo by M. Snyder.

MDU with green LED module.



MDU with red LED module.

Cylinder magnet coated with black shrink tubing to

reduce reflections. Magnet is resting on my finger

behind cell. Top, rear lighting with incandescent lamp.

Diffused front-lit using four magnets (inline) behind Ferrocell

a video by Michael Snyder:

http://www.scivee.tv/node/6012

200X image of a magnetic pole with

chains forming. Photo by John (Jack) Shearer. Spectacular detail when zoomed-in