To date, about 118 different elements have been discovered; by definition, each is les-grizzlys-catalans.orgically unique. To understand why they are unique, you need to understand the structure of the atom (the fundamental, individual particle of an element) and the characteristics of its components. Atoms consist of electrons, protons, and neutrons. Although this is an oversimplification that ignores the other subatomic particles that have been discovered, it is sufficient for discussion of les-grizzlys-catalans.orgical principles. Some properties of these subatomic particles are summarized in Table (PageIndex1), which illustrates three important points:Electrons and protons have electrical charges that are identical in magnitude but opposite in sign. Relative charges of −1 and +1 are assigned to the electron and proton, respectively. Neutrons have approximately the same mass as protons but no charge. They are electrically neutral. The mass of a proton or a neutron is about 1836 times greater than the mass of an electron. Protons and neutrons constitute the bulk of the mass of atoms.
You are watching: Which subatomic particles have approximately the same mass?
The discovery of the electron and the proton was crucial to the development of the modern model of the atom and provides an excellent case study in the application of the scientific method. In fact, the elucidation of the atom’s structure is one of the greatest detective stories in the history of science.
|electron||(9.109 imes 10^-28)||0.0005486||−1.602 × 10−19||−1||Outside nucleus|
|proton||(1.673 imes 10^-24)||1.007276||+1.602 × 10−19||+1||In nucleus|
|neutron||(1.675 imes 10^-24)||1.008665||0||0||In nucleus|
Almost all of the mass of an atom is contained within a tiny (and therefore extremely dense) nucleus which carries a positive electric charge and almost all of the volume of an atom consists of empty space in which electronsreside (Figure (PageIndex1)). The extremely small mass of the electron (1/1840 the mass of the hydrogen nucleus) causes it to behave as a quantum particle, which means that its location at any moment cannot be specified; the best we can do is describe its behavior in terms of the probability of its manifesting itself at any point in space. It is common (but somewhat misleading) to describe the volume of space in which the electrons of an atom have a significant probability of being found as the electron cloud. The latter has no definite outer boundary, so neither does the atom. The radius of an atom must be defined arbitrarily, such as the boundary in which the electron can be found with 95% probability. Atomic radii are typically 30-300 pm.
The Number of Protons Define the Nature of the Elements
The number of protons in the nucleus of an atom is its atomic number ((Z)). This is the defining trait of an element: Its value determines the identity of the atom. For example, any atom that contains six protons is the element carbon and has the atomic number 6, regardless of how many neutrons or electrons it may have. A neutral atom must contain the same number of positive and negative charges, so the number of protons equals the number of electrons. Therefore, the atomic number also indicates the number of electrons in an atom. The total number of protons and neutrons in an atom is called its mass number ((A))). The number of neutrons is therefore the difference between the mass number and the atomic number:
<eginalign*ceatomic: number:(Z): &= :number: of: protons\mass: number:(A): &= :number: of: protons + number: of: neutrons\A-Z: &= :number: of: neutronsendalign*>
The identity of an element is defined by (Z),the number of protons in the nucleus of an atom of the element, which isdifferent for each element. The known elements are arranged in order of increasing Z in the periodic table (Figure (PageIndex2)). The rationale for the peculiar format of the periodic table is explained later. Each element is assigned a unique one-, two-, or three-letter symbol. The names of the elements are listed in the periodic table, along with their symbols, atomic numbers, and atomic masses. The les-grizzlys-catalans.orgistry of each element is determined by its number of protons and electrons.
The symbols for several common elements and their atoms are listed in Table (PageIndex2). Some symbols are derived from the common name of the element; others are abbreviations of the name in another language. Symbols have one or two letters, for example, H for hydrogen and (ceCl) for chlorine. To avoid confusion with other notations, only the first letter of a symbol is capitalized. For example, (ceCo) is the symbol for the element cobalt, but (ceCO) is the notation for the compound carbon monoxide, which contains atoms of the elements carbon ((ceC)) and oxygen ((ceO)). All known elements and their symbols are in the periodic table.
|aluminum||Al||iron||Fe (from ferrum)|
|bromine||Br||lead||Pb (from plumbum)|
|carbon||C||mercury||Hg (from hydrargyrum)|
|cobalt||Co||potassium||K (from kalium)|
|copper||Cu (from cuprum)||silicon||Si|
|fluorine||F||silver||Ag (from argentum)|
|gold||Au (from aurum)||sodium||Na (from natrium)|
|hydrogen||H||tin||Sn (from stannum)|
Traditionally, the discoverer (or discoverers) of a new element names the element. However, until the name is recognized by the International Union of Pure and Applied les-grizzlys-catalans.orgistry (IUPAC), the recommended name of the new element is based on the Latin word(s) for its atomic number. For example, element 106 was called unnilhexium (Unh), element 107 was called unnilseptium (Uns), and element 108 was called unniloctium (Uno) for several years. These elements are now named after scientists or locations; for example, element 106 is now known as seaborgium (Sg) in honor of Glenn Seaborg, a Nobel Prize winner who was active in the discovery of several heavy elements
Isotopes:Differing Numbers of Neutrons
Recall that the nuclei of most atoms contain neutrons as well as protons. Unlike protons, the number of neutrons is not absolutely fixed for most elements. Atoms that have the same number of protons, and hence the same atomic number, but different numbers of neutrons are called isotopes. All isotopes of an element have the same number of protons and electrons, which means they exhibit the same les-grizzlys-catalans.orgistry. The isotopes of an element differ only in their atomic mass, which is given by the mass number ((A)), the sum of the numbers of protons and neutrons.
The element carbon ((C)) has an atomic number of 6, which means that all neutral carbon atoms contain 6 protons and 6 electrons. In a typical sample of carbon-containing material, 98.89% of the carbon atoms also contain 6 neutrons, so each has a mass number of 12. An isotope of any element can be uniquely represented as (^A_Z X), where X is the atomic symbol of the element. The isotope of carbon that has 6 neutrons is therefore (_6^12 C). The subscript indicating the atomic number is actually redundant because the atomic symbol already uniquely specifies Z. Consequently, (_6^12 C) is more often written as 12C, which is read as “carbon-12.” Nevertheless, the value of Z is commonly included in the notation for nuclear reactions because these reactions involve changes in Z.
For example, naturally occurring hydrogen has two stable nuclides,(ce^1_1H)and(ce^2_1H), which also are isotopes of one another. More than 99.98 percent is “light” hydrogen, (ce^1_1H). This consists of atoms each of which has one proton, one electron, and zero neutrons (Figure (PageIndex1; left)). The rest is “heavy” hydrogen or deuterium, (ce^2_1H), which consists of atoms which contain one electron, one proton, and one neutron (Figure (PageIndex1; center). Hence the nuclidic mass of deuterium is almost exactly twice as great as for light hydrogen. It is also possible to obtain a third isotope, tritium, (ce^3_1H). that consists of atoms whose nuclei contain two neutrons and one proton (Figure (PageIndex1; right)). Its mass is about 3 times that of light hydrogen.Hard Luck ( Diary Of A Wimpy Kid Ladybug Phone Exist On Diary Of A Wimpy Kid?
The atomic number of iodine (53) tells us that a neutral iodine atom contains 53 protons in its nucleus and 53 electrons outside its nucleus. Because the sum of the numbers of protons and neutrons equals the mass number, 127, the number of neutrons is 74 (127 − 53 = 74). Since the iodine is added as a 1− anion, the number of electrons is 54 <53 – (1–) = 54>.
An ion of platinum has a mass number of 195 and contains 74 electrons. How many protons and neutrons does it contain, and what is its charge?