›› neon molecular weight. Molar mass of Ne = 20.1797 g/mol. Convert grams neon to moles or moles neon to grams. Of each element in a chemical formula by the number of atoms of that element present in the formula, then adding all of these products together. Source: Neon is obtained commercially by fractional distillation of liquid air. Isotopes: Neon has 14 isotopes whose half-lives are known, with mass numbers 16 to 29. Naturally occurring neon is a mixture of its three stable isotopes and they are found in the percentages shown: 20 Ne (90.5%), 21 Ne (0.7%) and 22 Ne (9.2%). The mass number of neon is 20.18amu. The mass number can be found by using the periodic table of elements. First, locate the symbol of the element. See full answer below. 1.8. 10^(23)'atoms' The idea here is that you need to use neon's molar mass, which tells you what the mass of one mole of the element is, to determine how many moles you have in that '5.9-g' sample. Once you know how many moles you have, you can use Avogadro's number to find the number of atoms. So, neon has a molar mass of '20.18 g/mol', which means that every mole of neon has a mass of '20. The mass number of silver is therefore 108. Example 3 - mass number of Neon: The element Neon (Symbol Ne) has the Atomic Number of 10. The number of protons in atom of neon is therefore 10. Neon has the Atomic Mass weight of 20.18. Round to the nearest whole number. The mass number of neon is therefore 20. Mass Numbers = Atomic Weight of.
Molar mass of Ne = 20.1797 g/mol
Convert grams neon to moles or moles neon to grams
Symbol | # of Atoms | Neon | Ne | 20.1797 | 1 | 100.000% |
In chemistry, the formula weight is a quantity computed by multiplying the atomic weight (in atomic mass units) of each element in a chemical formula by the number of atoms of that element present in the formula, then adding all of these products together.
A common request on this site is to convert grams to moles. To complete this calculation, you have to know what substance you are trying to convert. The reason is that the molar mass of the substance affects the conversion. This site explains how to find molar mass.
Formula weights are especially useful in determining the relative weights of reagents and products in a chemical reaction. These relative weights computed from the chemical equation are sometimes called equation weights.
If the formula used in calculating molar mass is the molecular formula, the formula weight computed is the molecular weight. The percentage by weight of any atom or group of atoms in a compound can be computed by dividing the total weight of the atom (or group of atoms) in the formula by the formula weight and multiplying by 100.
Finding molar mass starts with units of grams per mole (g/mol). When calculating molecular weight of a chemical compound, it tells us how many grams are in one mole of that substance. The formula weight is simply the weight in atomic mass units of all the atoms in a given formula.
The atomic weights used on this site come from NIST, the National Institute of Standards and Technology. We use the most common isotopes. This is how to calculate molar mass (average molecular weight), which is based on isotropically weighted averages. This is not the same as molecular mass, which is the mass of a single molecule of well-defined isotopes. For bulk stoichiometric calculations, we are usually determining molar mass, which may also be called standard atomic weight or average atomic mass.
Using the chemical formula of the compound and the periodic table of elements, we can add up the atomic weights and calculate molecular weight of the substance.
Overview
Neon is a member of the noble gas family. Other elements in this family includes helium, argon, krypton, xenon, and radon. These gases are in Group 18 (VIIIA) of the periodic table. The periodic table is a chart that shows how chemical elements are related to each other. The noble gases are sometimes called the inert gases. This name comes from the fact that these elements do not react very readily. In fact, compounds exist for only three noble gases—krypton, radon, and xenon. Chemists have yet to prepare compounds of helium, neon, or argon.
Neon was discovered in 1898 by British chemists William Ramsay (1852-1916) and Morris Travers (1872-1961). It occurs naturally in the atmosphere, but only in very small amounts.
SYMBOL
Ne
Ne
ATOMIC NUMBER
10
10
ATOMIC MASS
20.179
20.179
FAMILY
Group 18 (VIIIA)
Noble gas
Group 18 (VIIIA)
Noble gas
PRONUNCIATION
NEE-on
NEE-on
Neon has relatively few uses. The most familiar is neon lighting. Today, neon signs of every color, shape, and size exist. Neon signs are often filled with neon gas, but they may also contain other gases as well. The gas contained in the sign tube determines the color of light given off. The color given off by neon itself is reddish-orange.
Discovery and naming
Neon Protons Neutrons Electrons
It took humans centuries to understand air. At one time, philosophers thought air was an element. Among the ancient Greeks, for example, the four bask elements were air, fire, water, and earth.
The first research to disprove that idea was done in the 1770s. In that decade, two new elements were discovered in air: nitrogen and oxygen. For some time, chemists were convinced that these two gases were the only ones present in air. That idea is easy to understand. Between them, nitrogen and oxygen make up more than 99 percent of air.
But over time, chemists became more skilled at making measurements. They recognized that something else was in air besides nitrogen and oxygen. That 'something else' accounted for the remaining one percent that is not nitrogen or oxygen. In 1894, a third element was discovered in air: argon. Argon makes up about 0.934 percent of air. So, nitrogen, oxygen, and argon together make up about 99.966 percent of air.
But what was responsible for the remaining 0.034 percent of air? Chemists knew that other gases must be present in very small amounts. But what were those gases?
That question was answered between 1895 and 1900. Five more inert gases were discovered in air. One of those was neon.
Detecting gases in very small amounts was very difficult in the 1890s. Equipment was often not good enough to capture a tiny fraction of a milliliter of gas. But a new method, called spectroscopy, was developed that 'sees' even small amounts of an element. Spectroscopy is the process of analyzing the light produced when an element is heated. The light pattern, or spectrum, produced is different for every element. The spectrum (plural: spectra) consists of a series of very specific colored lines.
In 1898, Ramsay and Travers were studying the minute amount of gas that remained after oxygen, nitrogen, and argon had been removed from air. They heated the sample of gas and studied the spectrum produced by it. Ramsay and Travers found spectral lines they had never seen before. They described their discovery:
The blaze of crimson light from the tube told its own story, and it was a sight to dwell upon and never to forget. It was worth the struggle of the previous two years; and all the difficulties yet to be overcome before the research was finished. The undiscovered gas had come to light in a manner which was no less than dramatic. For the moment, the actual spectrum of the gas did not matter in the least, for nothing in the world gave a glow such as we had seen.
Ramsay's son was one of the first people to hear about the discovery. He wanted to name the new element novum, meaning 'new.' His father liked the idea, but suggested using the Greek word for 'new,' neos. Thus, the element was named neon.
'The blaze of crimson light from the tube told its own story, and it was a sight to dwell upon and never to forget.'
Physical properties
Neon is a colorless, odorless, tasteless gas. It changes from a gas to a liquid at -245.92°C (-410.66°F) and from a liquid to a solid at -248.6°C (-415.5°F). Its density is 0.89994 grams
A man bends a glass tube that will be used for neon lighting. The completed, glowing tubes are in the background.
per liter. By comparison, the density of air is about 1.29 grams per liter. Chemical properties
Neon is chemically inactive. So far, it has been impossible to make neon react with any other element or compound.
Occurrence in nature and Extraction
The abundance of neon in normal air is 18.2 parts per million (0.0182 percent).
Isotopes
Neon Group Number
Three isotopes of neon exist, neon-20, neon-21, and neon-22. Isotopes are two or more forms of an element. Isotopes differ from each other according to their mass number. The number written to the right of the element's name is the mass number. The mass number represents the number of protons plus neutrons in the nucleus of an atom of the element. The number of protons determines the element, but the number of neutrons in the atom of any one element can vary. Each variation is an isotope.
Three radioactive isotopes of neon are known also. A radioactive isotope is one that breaks apart and gives off some form
The neon lights of Las Vegas, Nevada, in the early 1990s.
of radiation. Radioactive isotopes are produced when very small particles are fired at atoms. These particles stick in the atoms and make them radioactive. None of the radioactive isotopes of neon has any commercial application.
Extraction
Neon can be obtained from air by fractional distillation. The first step in fractional distillation of air is to change a container of air to a liquid. The liquid air is then allowed to warm up. As the air warms, each element in air changes from a liquid back to a gas at a different temperature. The portion of air that changes back to a gas at -245.92°C is neon.
Uses
Mass Number Of Neon
The best known use of neon gas is in neon lights. A neon light consists of a glass tube filled with neon or some other inert gas. An electric current is passed through the tube. The electric current causes neon atoms to break apart. After a fraction of a second, the parts recombine. When they recombine, they give off neon light. The light produced is the light given off by the neon light.
Neon lighting was invented by French chemist Georges Claude (1870-1960). Claude displayed his first neon sign at the Paris Exposition of 1910. He sold the first neon advertising sign to a Paris barber two years later.
By the 1920s, neon lighting had become popular in many parts of the world. Neon lights were fairly inexpensive, lasted a long time, and were very attractive. Probably the most spectacular collection of neon lighting is in Las Vegas, Nevada. Hotels, night clubs, and restaurants seem to try to outdo everyone else in having the biggest and brightest neon sign.
Neon lighting is now used for many other purposes. For example, neon tubes are used in instruments used to detect electric currents. Neon is also used in the manufacture of lasers. A laser is a device for producing very bright light of a single color. Lasers now have many uses in industry and medicine. They are very efficient at cutting metal and plastic. They can also be used to do very precise kinds of surgery.
Compounds
Neon's Atomic Mass Number
There are no compounds of neon.
Neon-20 Mass Number
The first neon advertising sign was used by a Paris barber in 1912.
Reverse Tn Lookup
Health effects
There are no known health effects of neon.