Structural Formulas The sixth element in the periodic table, carbon, has the electron configuration 1 s 2 2 s 2 2 p 2 and, thus, has four valence electrons in the unfilled orbitals of its second electron shell. To fill these orbitals to a stable set of eight valence electrons, a single carbon atom may share electrons with two, three, or even four other atoms.

1. Atomic Structure Of Hydrogen
2. Atomic Structure Pdf

No other element forms such strong bonds to as many other atoms as carbon does. Moreover, multiple carbon atoms readily link together with single, double, or triple bonds.

These factors make element number 6 unique in the entire periodic table. The number of carbon‐based compounds is many times greater than the total of all compounds lacking carbon. All types of life are based on carbon compounds, so the study of the chemistry of carbon is called organic chemistry. You should realize, however, that organic compounds are not necessarily derived from plants and animals. Hundreds of thousands of them have been synthesized (built) in the laboratory from simpler substances. Figure 1 is an illustration of propane, one of the simplest organic compounds: Figure 1. The structural formula of propane.

This representation is called a structural formula, in which lines depict two electron bonds between atoms. Look at the propane structure and observe that the four bonds to each carbon complete its valence orbitals with eight electrons. In the diagram of propane, the most important feature is the chain of three carbons.

Such carbon‐carbon bonding is what generates the incredible variety of organic compounds. This linkage of carbon atoms can continue without limit.

Atomic Structure Of Hydrogen

Just as propane has 3 bonded carbons, you can imagine organic compounds with 4 or 5 or 500 carbons in an extensive chain or network. The structural formula for propane shows three axial carbon atoms and eight peripheral hydrogen atoms. The composition of propane can be more compactly expressed as C 3H 8.

This representation is a molecular formula. Such a formula does not directly tell how the various atoms are interbonded. Compare two different compounds that have four linked carbon atoms. Refer to Figure 2.

Although these two compounds have the same molecular formula (and, therefore, have identical chemical compositions), their structural formulas reveal a difference in the way that the four carbons are assembled. Structure is just as essential as composition in organic chemistry.

Atomic Structure Pdf

The two varieties of C 4H 10 are called isomers, meaning that they have the same composition but differing structures. Structure affects both the physical properties and chemical reactivity of isomers. In the example of C 4H 10 isomers, both exist as gases at room temperature, but they can be condensed easily to liquids by cooling or compression.

The two liquids have different temperatures at which they boil. The boiling behavior is consistent with their structures. The longest carbon chain in butane is four atoms, whereas the longest such chain in isobutane is only three atoms. The more compact molecules of isobutane escape from the liquid more readily, so the more volatile isobutane has a lower boiling point.

Chemists frequently write condensed structural formulas that omit the carbon‐hydrogen bonds, as shown in Figure 3. Figure 3. Condensed structural formulas.

Notice that these condensed structural formulas still display the pattern of carbon‐carbon bonding required to distinguish structural isomers.

. Atoms cannot be divided.

They do consist of parts, which include protons, neutrons, and electrons, but an atom is a basic chemical building block of matter. Each electron has a negative electrical charge. Each proton has a positive electrical charge. The charge of a proton and an electron are equal in magnitude, yet opposite in sign.

Electrons and protons are electrically attracted to each other. Each neutron is electrically neutral. In other words, neutrons do not have a charge and are not electrically attracted to either electrons or protons. Protons and neutrons are about the same size as each other and are much larger than electrons.

The mass of a proton is essentially the same as that of a neutron. The mass of a proton is 1840 times greater than the mass of an electron.

The nucleus of an atom contains protons and neutrons. The nucleus carries a positive electrical charge.

Electrons move around outside the nucleus. Almost all of the mass of an atom is in its nucleus; almost all of the volume of an atom is occupied by electrons.