No. The formula unit for an ionic compound denotes the ratio of ions in the compound. For example, the formula unit NaCl indicates a ratio of 1 sodium ion to 1 chloride ion, CaCl2 indicates a ratio of 1 calcium ion to 2 chloride ions, and Fe2O3 indicates a ratio of 2 iron ions to 3 oxide ions.
This ratio is different for each compound; for the oxide P4O10 the ratio is 2/5.
Water is an inorganic compound.
The ratio of the specific charge of an electron to that of a positron is 1:1. Both the electron and positron have the same magnitude of charge but opposite in sign, with the electron being negative and the positron being positive.
The ratio will be 1:1. When they react chemically with one another, the group 1A metals (the alkali metals) give up one electron, forming ions with a charge of 1+, and the group 7A (17) halogens gain the electron given up by the metal, forming ions with a 1- charge. When they react chemically with one another, they form a neutral ionic compound with a ratio of 1alkali metal:1halogen. Na+ + Cl- --> NaCl Li+ + Br- --> LiBr K+ + F- --> KF
The ratio of different atoms in a compound important because the compound has to achieve an equilibrium in terms of electrical charge. The net total of charges of the atoms forming a compound must be zero.
Sodium has a valency of 1 because it donates 1 electron to achieve a stable octet configuration, forming a +1 ion. Chlorine has a valency of 1 because it gains 1 electron to achieve a stable octet configuration, forming a -1 ion. When they combine in a 1:1 ratio to form sodium chloride, the compound is electrically neutral.
Subscripts in formulas for ionic compounds are used to denote the ratio of ions in the compound. They represent the number of atoms of each element present in the compound to balance the charges. The subscripts are used to show the simplest whole-number ratio of ions in the compound.
The chemical formula of the compound shows the ratio of the atoms of elements in a compound. This must not be confused with the ratio of their masses.
The fixed ratio of a chemical compound is known as its stoichiometry. This ratio is the quantitative relationship between the number of atoms of each element in the compound, as expressed by the compound's chemical formula.
calculate the ratio between proton&electron
A compound.
The answer depends on the compound.
Sodium (Na) typically has a valency of +1 because it has one electron in its outer shell, which it tends to lose to achieve a stable electron configuration. In a NaCl crystal, sodium loses one electron to chlorine (Cl), which has a valency of -1, resulting in an overall neutral compound with a 1:1 ratio of Na and Cl ions.
This ratio is different for each compound; for the oxide P4O10 the ratio is 2/5.
The m/v ratio of a compound refers to the mass-to-volume ratio, which is calculated by dividing the mass of the compound by its volume. This ratio helps determine the density of the compound, which is a measure of how much mass is present in a given volume.
The ionic formula for sodium chloride (NaCl) is formed from the combination of the sodium cation (Na+) and the chloride anion (Cl-). In this ionic compound, sodium loses one electron to achieve a stable octet configuration, becoming a positively charged cation, while chlorine gains one electron to achieve a stable octet, becoming a negatively charged anion. These ions then combine in a 1:1 ratio to form the neutral compound sodium chloride.
The ratio of phosphorus atoms to oxygen atoms in a compound can vary depending on the specific compound. For example, in phosphorus pentoxide (P4O10), the ratio is 4:10.