Split ends, of course, only occur with poorly maintained hair!
It would be nice. The sad truth is that many hair care products – even expensive ones – severely attack hair structures for a beautiful first impression.
The direct Read more
A cat’s top hair in a scanning electron microscope.Magnification: 2500x
How thick is it? Look closely with strucTEM-Measure:
https://www.structem.eu/tools/measure/?lang=en&collection=hair&id=strucTEM-SEM-animal-hair-03-cat-164-0037
Interesting facts about cat hair:
Most cats are incredibly cuddly because they have so many soft hairs. But how Read more
Microscopically small chive pollen: length just about 0.035 mm
#SEM #scanningelectronmicroscopy #microscopy #pollen #chive #macro
The shell of a small bird egg at about 3000x magnification in a scanning electron microscope – SEM.
The outer eggshell (left) and the shell membrane (outer eggshell membrane, right) are clearly visible. The basic substances of the Read more
Last week, Nathalie discovered beautiful “cudgels” between the filigree scales of a moth, whose surfaces resemble artificial nano-objects.Unfortunately, we do not yet know the function of these cudgels. Are they feelers? Smell organs?The cudgels have a total length of Read more
The image of a walnut pollen in the scanning electron microscope.
This small pollen is not even half a millimetre in size: it’s diameter is approx. 40 µm.
Common Applications:Since pollen is very resistant to decomposition, pollen analyses can Read more
Beard hairs are usually thicker than hairs on the head: while the diameters of head hair range from 0.04 to 0.12 mm, the diameters of beard hair are on average twice as big: 0.09-0.23 mm.However, the structure of beard Read more
Freeze-dried blueberry fruit pieces in the microscope.The displayed magnifications are 20- & 60-fold in the light microscope (LM) and 170- & 1400-fold in the scanning electron microscope (SEM).
The accompanying zoom video:https://www.youtube.com/watch?v=YkYbVZXB4xc
Quality and taste of a food-powder Read more
This overview image shows freeze-dried mango fruit pieces at different magnifications. 20x and 60x in a light microscope (LM). 670x and 2700x in a scanning electron microscope (SEM). The magnifications refer to the views on a 19 inch screen.
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Spruce wood in a scanning electron microscope (view perpendicular to the trunk diameter). At high resolution, the circular pits are easy to see. Pits are thinner portions of the cell wall that allowing mass transfer between neighboring cells.
See Read more