yes, almost it is but not the very normal microscope something advanced. but to see the inner parts of the carbon you need to use the electron microscope...
When a carbon-containing fuel is burned, carbon-oxygen compounds are formed. If there's enough air, carbon dioxide will be formed. When the oxygen runs low you'll get carbon monoxide, and when it runs out you get pure carbon - soot. A blue flame has enough oxygen to convert all the carbon to CO2.
It is approximately 24.02 grams. Each mole of carbon weights 12.01 grams (one mole= enough particles to make a substance's weight in grams equal to it's atomic weight in amu; same amount of particles for every substance).
depends on weather your microscope is strong enough
because viruses are very small and can not seen by any light microscope.only electron microscopes that use electron radiation that have wavelenght about .005 nanometer have enough resolving power to detect such a small particles as viruses
This is an example of Brownian motion. The chalk suspended particles tend to move in the water and thus is big enough to be seen under a microscope. Brownian motion is the visible motion of small pieces of any solid that can be seen under a light microscope
It is in a solid state.
Carbon Dioxide Brother
When a carbon-containing fuel is burned, carbon-oxygen compounds are formed. If there's enough air, carbon dioxide will be formed. When the oxygen runs low you'll get carbon monoxide, and when it runs out you get pure carbon - soot. A blue flame has enough oxygen to convert all the carbon to CO2.
It is approximately 24.02 grams. Each mole of carbon weights 12.01 grams (one mole= enough particles to make a substance's weight in grams equal to it's atomic weight in amu; same amount of particles for every substance).
Black soot can form on a funnel when there is incomplete combustion of fuel. This happens when the fuel does not have enough oxygen to fully burn, leading to the production of carbon particles. These carbon particles then adhere to the surface of the funnel, resulting in the formation of black soot.
an electron
When burning wood or coal, some of the carbon does not get hot enough to burn. Also there are non-flammable impurities present. Instead of burning, the carbon and impurities are caught by the air flow around the fire and is taken up as microscopic particles. These particles may have combustion around their edges but that cools quickly and stops. The particles rising in the air are smoke.
When the big bang occurred tiny particles spread out evenly through the universe. Wel almost evenly and due to these tiny flaws in the spreading. Gravity pulled these particles together and after enough of these particles form. Hydrogen atoms begin to fuse creating stars that shine.
A traveling microscope is considered to be a low-powered microscope, however, it is powerful enough to allow for accurate size determinations. The resolution of the typical traveling microscope is 0.01 mm.
IF YOU HAVE A MICROSCOPE THAT DOES NOT HAVE AN INTERNAL LIGHT SOURCE, YOU WILL HAVE TO USE THE EXTERNAL LIGHT SOURCE THAT IS PROVIDED IN THE CABINET WITH THE MICROSCOPE.
A scanning electron microscope is best used for this application. The microscope is powerful enough to view the indentations on a butterfly wing.
You're probably thinking of the scanning electron microscope. But it could be anything. Your question is not specific enough.