There are 11: Name: Nitrogen Symbol: N
Type: Non-Metal Atomic weight: 14.0067
Density @ 293 K: 0.0012506 g/cm3 Atomic volume: 17.3 cm3/mol
Discovered: Nitrogen was discovered by Daniel Rutherford in Scotland in 1772. Rutherford removed oxygen and carbon dioxide from air and showed that the residual gas could not support combustion or living organisms. He called his discovery noxious air.
Name: Oxygen Symbol: O
Type: Non-Metal, Chalcogen Atomic weight: 15.9994
Density @ 293 K: 0.001429 g/cm3 Atomic volume: 14.0 cm3/mol
Discovered: Oxygen was discovered in 1774 by J. Priestley in England and independently by C. W. Scheele in Sweden. The word oxygen is derived from the Greek words 'oxys' meaning acid and 'genes' meaning forming.
Name: Fluorine Symbol: F
Group: Halogen Atomic weight: 18.998403
Density @ 293 K: 0.001696 g/cm3 Atomic volume: 17.1 cm3/mol
Group: Halogen Discovered: 1886
Name: Chlorine Symbol: Cl
Type: Halogen Atomic weight: 35.453
Density @ 293 K: 0.003214 g/cm3 Atomic volume: 22.7 cm3/mol
Discovered: Chlorine was produced first in 1774 by Carl Wilhelm Scheele, who observed the greenish-yellow gas released by the reaction of pyrolusite (manganese dioxide) with the substance we now call hydrochloric acid. Scheele mistakenly thought the resulting gas contained oxygen. In 1810, Sir Humphry Davy confirmed this gas was an element, not a compound. He named it chlorine, from the Greek word 'chloros', meaning pale green.
Name: Helium Symbol: He
Group: Noble Gas Atomic weight: 4.00260
Density @ 293 K: 0.0001787 g/cm3 Atomic volume: ?
Group: Noble Gas Discovered: 1895
Name: Neon Symbol: Ne
Type: Noble Gas Atomic weight: 20.179
Density @ 293 K: 0.0009 g/cm3 Atomic volume: 16.7 cm3/mol
Discovered: Neon was discovered in 1898 by William Ramsay and Morris Travers during experiments with liquid air. The name comes from the Greek word 'neon', meaning new.
Name: Argon Symbol: Ar
Type: Noble Gas Atomic weight: 39.948
Density @ 293 K: 0.001784 g/cm3 Atomic volume: 22.4 dm3/mol at 0 oC, 101.325 kPa.
Discovered: 1894 by Lord Rayleigh and Sir William Ramsay who sought to explain why nitrogen from air appeared to be heavier than nitrogen released from compounds. They discovered that air-sourced nitrogen contained another gas that is nearly one-and-a-half times denser than nitrogen. After isolating the new gas, the first of the noble gases to be discovered, the scientists named it argon ("the inactive one") and found it made up almost one percent of air. Rayleigh said, "Argon must not be deemed rare. A large hall may easily contain a greater weight of it than a man can carry."
Name: Krypton Symbol: Kr
Group: Noble Gas Atomic weight: 83.80
Density @ 293 K: 0.003708 g/cm3 Atomic volume: 38.9 cm3/mol
Group: Noble Gas Discovered: 1898
Name: Xenon Symbol: Xe
Group: Noble Gas Atomic weight: 131.30
Density @ 293 K: 0.00588 g/cm3 Atomic volume: 37.3 cm3/mol
Group: Noble Gas Discovered: 1898
Name: Radon Symbol: Rn
Group: Noble Gas Atomic weight: 222
Density @ 293 K: 0.00973 g/cm3 Atomic volume: 50.5 cm3/mol
Group: Noble Gas Discovered: 1900
Source: http://www.chemicool.com/
I can name a few there is hydrogen, helium, sodium, oxygen, lithium, germanium, einsteinium, carbon, calcium, platinum, gold, lead ,Mercury , tin, iron...
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There are 118 known elements. See the Related Link below for one of the currently accepted Periodic Tables.
1. hydrogen
2. helium
3. neon
4. argon
5. kyrpton
6. Xenon
7. radon
8. hydrogen
9. fluorine
10. chlorine
11. nitrogen
There are 11 gas elements in the Periodic Table at standard temperature(0o C) and atmospheric temperature (1 atm).
There are eleven elements that are gases at standard temperature and pressure.
Hydrogen, helium, nitrogen, oxygen, fluorine, neon, chlorine, argon, krypton, xenon, radon.
1 is iodine
2 is bromine
3 is chlorine
4 is flourine
5 is oxygen
6 is nitrogen
7 is hydrogen
Elements with full outer shells, the noble gas elements, are located in the column at the extreme right of the periodic table.
The periodic table itself will not tell you if an element is a gas or not. All elements have a melting point and a boiling point. For this information you need to look at a table of the PROPERTIES of the elements. However, all the elements in column 18 and many of the elements towards the top of column 17 and to some extent 16 are gasses at room temperature, as are all the elements in row 1.
No. Hydrogen, on a regular periodic table, is the first element in group 1, and it is part of the gas family.
The naturally occurring elements in the noble gas group are helium, neon, argon, krypton, and xenon.
Other elements can acquire a noble gas configuration by either gaining or losing electrons. Elements on the left side of the periodic table, such as alkali metals, tend to lose electrons to achieve a noble gas configuration. Elements on the right side of the periodic table, such as halogens, tend to gain electrons to achieve a noble gas configuration. Elements in the middle of the periodic table may gain or lose electrons to acquire a noble gas configuration, depending on the specific element and its properties.
Elements with full outer shells, the noble gas elements, are located in the column at the extreme right of the periodic table.
no it is a gas not a salt.
The periodic table itself will not tell you if an element is a gas or not. All elements have a melting point and a boiling point. For this information you need to look at a table of the PROPERTIES of the elements. However, all the elements in column 18 and many of the elements towards the top of column 17 and to some extent 16 are gasses at room temperature, as are all the elements in row 1.
The noble gas elements.
no, like other elements in the periodic table they can be solid, liquid or gas
No. Hydrogen, on a regular periodic table, is the first element in group 1, and it is part of the gas family.
The naturally occurring elements in the noble gas group are helium, neon, argon, krypton, and xenon.
Other elements can acquire a noble gas configuration by either gaining or losing electrons. Elements on the left side of the periodic table, such as alkali metals, tend to lose electrons to achieve a noble gas configuration. Elements on the right side of the periodic table, such as halogens, tend to gain electrons to achieve a noble gas configuration. Elements in the middle of the periodic table may gain or lose electrons to acquire a noble gas configuration, depending on the specific element and its properties.
No, neon is not a metal. It is a noble or inert gas. On the periodic table of elements, it's found in the last column on the right, which are the Group 18 elements.
Yes , it ( the table) shows you the elements of air and and H20 It is #7 in the periodic table and is a tasteless, orderless gas. Our atmosphere is 78% nitrogen. Our bodies are made of these elements: C,H,N.O,P,S with nitrogen the third most common.
Most are metals. There are about 5 metaloids and aproximately 20 gas/liquids.
first group of periodic table... hydrogen is a gas and other elements are solid....