Edison used carbonized bamboo and then switched to carbonized cotton threads as materials for his early filaments in his incandescent light bulbs.
with what two materials did Edison experiment in order to make filaments
Thomas Edison experimented with bamboo and carbonized cotton threads as potential materials for filaments in his early light bulb designs. Eventually, he found success with a carbonized bamboo filament which revolutionized the light bulb industry.
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Two disadvantages of the Edison kinetoscope were its limited viewing capacity, as it could only accommodate one viewer at a time, and its lack of sound, restricting the film experience to visual-only.
Thomas Edison and Nikola Tesla met when Tesla started working for Edison at his company, Edison Machine Works, in 1884. Tesla made significant contributions to the company, but the two inventors had contrasting views on electricity and eventually parted ways due to disagreements on alternating current versus direct current.
with what two materials did Edison experiment in order to make filaments
with what two materials did Edison experiment in order to make filaments
Thomas Edison experimented with bamboo and carbonized cotton threads as potential materials for filaments in his early light bulb designs. Eventually, he found success with a carbonized bamboo filament which revolutionized the light bulb industry.
bhbjgj
thick filaments and thin filaments
she was a famous tennis player and got gold in two Olympics
because they have an crude examples of what we call an electric filaments lamps. Thats why they they producan energy.
the sacromere, contains two kinds of filaments.
actin and myosin
(1)Microfilaments (also know as actin filaments) are actually only one type of filament in the eukaryotic cytoskeleton. The two other filaments are (2)intermediate filaments and (3)microtubules.
The two main filaments composing the sarcomere are action and myocin.
The cytoskeleton is a network of fibers that maintains the shape of cells. The three types of fibers are actin filaments, microtubules, and intermediate filaments. Actin filaments are long fibers composed of two protein chains. They are responsible for cellular movements, such as contraction, crawling, "pinching" during division, and formation of cellular extensions. Microtubules are hollow tubes composed of a ring of thirteen protein filaments. They are responsible for moving materials within the cell. Intermediate filaments are tough, fibrous protein molecules structured in an overlapping arrangement. They are intermediate in size when compared to actin filaments and microtubules, and provide structural stability to cells.Read more: what-are-the-three-types-of-fibers-found-in-the-cytoskeleton-of-eukaryotic-cells