bacteria and viruses and microorganisms.
I think 185nm kills some organic stuff.
hi ***************** At least UVC, which is 100-280 nm in wavelength. http://en.wikipedia.org/wiki/Ultraviolet#Subtypes
Molecules (1 nm)Cell membrane thickness (10 nm)Viruses (100 nm)Bacteria (1 µm)Organelles (
Phycocyanin is a pigment from the light-harvesting phycobiliprotein family. It is in some algae and bacteria that absorb light in the 618 nm range.
In 1884 the Danish physician Chriastan Gram developed the stain known as Gram stain with which one can distinguish the two cells of bacteria which is based on the difference of their cell wall. The gram positive cell stained purple whereas gram negative stained pink or red by gram staining. This is due to because gram positive bacteria cell wall consist of single 20-80 nm thick homogenous layer of peptidoglycan(murein)lying outside the plasma membrane. In contrast the gram negative cell wall is quite complex. It has a 2-7 nm peptidoglycan layer covered by a 7-8 nm thick outer membrane.
A macropore has a diameter of more than 50 nm , a mesopore has a diameter of 2 nm - 50 nm, a micropore has a diameter of less than 2 nm, a nanopore has a diameter of approximately 1 nm. Nm means nanometer.
About 254 miles.
About 254 miles.
254 nm
hi ***************** At least UVC, which is 100-280 nm in wavelength. http://en.wikipedia.org/wiki/Ultraviolet#Subtypes
254 nm= 254 x 10-9 m C=λv 3.00 x 108 m/s= 254 x 10-9 m (v) v= 1.18 x 1015 Hz
185 Nm
The reported UV lambda max of Vildagliptin drug is 254 nm.
185 ft.lbs/251 nm
50 nm
The energy is 6.756 electron volts of energy, 1.25uevm/.185um = 6.756 ev.
Molecules (1 nm)Cell membrane thickness (10 nm)Viruses (100 nm)Bacteria (1 µm)Organelles (
Virus (notable members: HIV, Influenza (flu)); bacteria (NM: E.Coli, salmonela); Fungi (NM: ringworm, athlete's foot); Prion (NM: mad cow disease); Protists (NM: Malaria, giardia)----- I know of two more; plants (NM: pollen); Pathogen (NM: tapeworm)