Each element has its own characteristic atomic number.Ītoms of the same element can have different numbers of neutrons, however. Thus, hydrogen has an atomic number of 1, while iron has an atomic number of 26. This number of protons is so important to the identity of an atom that it is called the atomic number of the element. All atoms of hydrogen have one and only one proton in the nucleus all atoms of iron have 26 protons in the nucleus. What makes atoms of different elements different? The fundamental characteristic that all atoms of the same element share is the number of protons. The modern atomic theory states that atoms of one element are the same, while atoms of different elements are different. (See Figure 3.4 “The Structure of the Atom”.) Figure 3.4 “The Structure of the Atom.” Atoms have protons and neutrons in the centre, making the nucleus, while the electrons orbit the nucleus. The electrons are outside the nucleus and spend their time orbiting in space about the nucleus. The relatively massive protons and neutrons are collected in the centre of an atom, in a region called the nucleus of the atom (plural nuclei). Experiments by Ernest Rutherford in England in the 1910s pointed to a nuclear model of the atom. How are these particles arranged in atoms? They are not arranged at random. Table 3.7 Properties of the Three Subatomic Particles Name Table 3.7 “Properties of the Three Subatomic Particles” summarizes the properties of these three subatomic particles. ![]() We now know that all atoms of all elements are composed of electrons, protons, and (with one exception) neutrons. The neutron is a subatomic particle with about the same mass as a proton but no charge. ![]() The proton is a more massive (but still tiny) subatomic particle with a positive charge, represented as p +. Later, two larger particles were discovered. It is often represented as e −, with the right superscript showing the negative charge. The first part to be discovered was the electron, a tiny subatomic particle with a negative charge. These concepts form the basis of chemistry.Īlthough the word atom comes from a Greek word that means “indivisible,” we understand now that atoms themselves are composed of smaller parts called subatomic particles. Atoms combine in whole-number ratios to form compounds.Atoms of the same element are the same atoms of different elements are different.The concept that atoms play a fundamental role in chemistry is formalized by the modern atomic theory, first stated by John Dalton, an English scientist, in 1808. Atoms are so small that it is difficult to believe that all matter is made from atoms-but it is. The period at the end of a printed sentence has several million atoms in it. It would take about fifty million atoms in a row to make a line that is 1 cm long. Lavoisier insisted that meditating on “ultimate particles” was metaphysical - and fruitless.The smallest piece of an element that maintains the identity of that element is called an atom. ![]() Antoine Lavoisier, whose work on the proportions of chemical combination was crucial to Dalton, had no time for such questions. There was nothing new in Dalton's idea of atomistic matter the question was whether to treat this as a useful conjecture or as a reality. It spoke to whether science should be based on empiricism or explanatory hypothesis - a question that had exercised Newton and Robert Boyle in the seventeenth century. Yet his book also represents an important juncture for the philosophy of science. The “philosophy” in Dalton's title signified something closer to a scientific theory than to the abstract reasoning it tends to connote today. It is traditional to locate Dalton's New System of Chemical Philosophy as a step - perhaps the greatest - in a long road to modern atomic theory that began with the ancient Greek atomists Leucippus and Democritus in the fifth century BC, and ended with the nuclear atoms proposed by Ernest Rutherford and Niels Bohr in the early twentieth century, then quantum theory and scanning probe microscopes.
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