It would depend on the type of atom. Atoms of different elements come in different sizes. We can take an average of about 1 angstrom, that is 10^-10 meters or 10^-8 cm.
Using that average you would need 10^8 atoms.
500 nanometers long waves fit along a 2 centimeters line
The question is vague, as shell can mean valence shell or inner shells that can also fit atoms via 'sharing' for transition metals, however, the number of atoms that can fit would determine on the number of electrons and vacant spots available for sharing on the outermost electronic shell. (Assume the question in mind is for covalent bonding; does not apply to ionic bonding.)
Well, darling, if we're talking about a 1 kilometer line and assuming each person takes up about 0.5 meters of space, you could fit approximately 2,000 people in that line. But hey, don't quote me on that, I'm just here to sprinkle some sassy math on your question!
It will not all fit in
Scientists use models to study atoms because atoms are too small to be seen with the naked eye. Models provide a visual representation of atoms that helps scientists understand their structure and behavior. By using models, scientists can make predictions and test hypotheses about atomic interactions.
It depends on how thick the line is.
Approximately 1 million atoms can fit across the width of a human hair.
it depends on the surface area of the sodium
a line of fit mean perfect line.
The line of best fit is simply the line that shows the general direction of the graph. The trick is to make the line go through as many points on the graph as possible. Some scatter plots have no line of best fit.
When points are marked on a graph, a line is often drawn across the dots plotted. A line of best fit is a straight line that goes through as many of such points as possible.
It has atoms that mix with other atoms.
yes it has as many as you can fit across it
As many as possible
The line that minimized the sum of the squares of the diffences of each point from the line is the line of best fit.
10^-10 basically means that an atom is 10 billionth of a metre. This means that 10 billion atoms can fit across in a line in 1 metre. A millimetre is a 1000th of a metre so 10 billion divided by 1000 equals 10 million. 10 million atoms fit in a straight line along a millimetre. However, you want 0.1mm. To get 0.1mm you have you divide 1mm by 10. You do the same to the atom number so 10 million divided by 10 equals 1 million. Answer: 1 million atoms
A line of best-fit.