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An acid is any compound that contains a H+ (hydrogen) ion. All acids' formulas begin with H (hydrogen) and all acids are named based on their anions (remember that compound names and formulas are in the format cation + anion).To obtain the formula of an acid when given the name, follow these steps accordingly. The following steps involves removing prefixes and suffixes, resulting in identifying the name of the anion.I. IDENTIFYING THE ANIONIf the prefix "hydro-" is present:1. Drop the prefix "hydro-" and "-ic acid".2. Replace "-ic acid" with the suffix "-ide"Now if the prefix "hydro" is not present, look at the end of the name.If the name ends with "-ic acid":1. Drop "-ic acid".2. Replace "-ic acid" with the suffix "-ate".If the name ends with "-ous acid":1. Drop "-ous acid".2. Replace "-ous acid" with "-ite".II. IDENTIFYING THE FORMULAAs stated earlier, the steps listed above were to identify the name of the anion. Now that the anion has been identified, we can give the formula. Remember how acids have H+ ions and a compound? Given that statement, it can be said that all acids have the following formula format:H+ + Anion Compound (Cation + Anion)When writing the equation, write the formula and charge for both the hydrogen ion (cation) and the anion in the format given above. When writing the actual formula, add the number of H atoms according to the charge of the anion. Keep in mind that in the formula, the charges of all atoms must equal to zero.ex. Hydrocyanic acid (prefix "hydro-" is present, ends with "-ic acid")1. Drop "hydro-" and "-ic acid".Cyan2. Replace "-ic acid" with the suffix "-ide"Result: Cyanide, CN-3. Write the equation.H+ + CN-4. Since there is a -1 charge on cyanide, the formula is written as: HCNHydrocyanic acid: HCNex. Boric acid (prefix "hydro-" is absent, ends with "-ic acid").1. Drop "-ic acid".Bor2. Replace "-ic acid" with the suffix "-ate".Result: Borate, BO3-33. Write the equation.H+ + BO3-34. Since the charge of borate is -3, the formula is written as: H3BO3Boric Acid: H3BO3Ex. Chlorous acid (prefix "hydro-" is absent, ends with "-ous acid")1. Drop "-ous acid".Chlor2. Replace "-ous acid" with "-ite".Result: Chlorite, ClO2-13. Write the equation.H+ + ClO2-4. Since the charge of chlorite is -1, the formula is written as: HClO2.Chlorous acid: HClO2To summarize:Acid formula format: H+ + Anion Compound (Cation + Anion)1. Identify anion by removing the prefix (if applicable) and changing the suffix accordingly.2. Identify the formula by writing the equation and determining number of hydrogen atoms in the acid per the anion's charge.
The molecular formula for chloroform is CHCl3.
The carbon anion, or carbanion, has a lone pair of unbound electrons that give the carbon ion a negative charge....thus being an anion. Being that electrons do not add to the molecular weight of the ion, carbanion would still have a molecular weight of 12 and fluorine of 19. This is assuming that you are referring to the normal isotopes of carbon and fluorine.
An empirical formula give information about the chemical composition of a compound. Example: tetracycline with the empirical formula C22H24N2O8 has the following composition: - carbon 59,44 % - oxygen 28,81 % - nitrogen 6,30 % - hydrogen 5,45 % If you're with plato the answer is ratios
What is "the following"?
No, an anion is the atom plus extra electrons which give that atom a negative charge. The anion is thus, always bigger than the original atom.
Give the simple formula for the nth term of the following arithmetic sequence. Your answer will be of the form an + b.12, 16, 20, 24, 28, ...
An acid is any compound that contains a H+ (hydrogen) ion. All acids' formulas begin with H (hydrogen) and all acids are named based on their anions (remember that compound names and formulas are in the format cation + anion).To obtain the formula of an acid when given the name, follow these steps accordingly. The following steps involves removing prefixes and suffixes, resulting in identifying the name of the anion.I. IDENTIFYING THE ANIONIf the prefix "hydro-" is present:1. Drop the prefix "hydro-" and "-ic acid".2. Replace "-ic acid" with the suffix "-ide"Now if the prefix "hydro" is not present, look at the end of the name.If the name ends with "-ic acid":1. Drop "-ic acid".2. Replace "-ic acid" with the suffix "-ate".If the name ends with "-ous acid":1. Drop "-ous acid".2. Replace "-ous acid" with "-ite".II. IDENTIFYING THE FORMULAAs stated earlier, the steps listed above were to identify the name of the anion. Now that the anion has been identified, we can give the formula. Remember how acids have H+ ions and a compound? Given that statement, it can be said that all acids have the following formula format:H+ + Anion Compound (Cation + Anion)When writing the equation, write the formula and charge for both the hydrogen ion (cation) and the anion in the format given above. When writing the actual formula, add the number of H atoms according to the charge of the anion. Keep in mind that in the formula, the charges of all atoms must equal to zero.ex. Hydrocyanic acid (prefix "hydro-" is present, ends with "-ic acid")1. Drop "hydro-" and "-ic acid".Cyan2. Replace "-ic acid" with the suffix "-ide"Result: Cyanide, CN-3. Write the equation.H+ + CN-4. Since there is a -1 charge on cyanide, the formula is written as: HCNHydrocyanic acid: HCNex. Boric acid (prefix "hydro-" is absent, ends with "-ic acid").1. Drop "-ic acid".Bor2. Replace "-ic acid" with the suffix "-ate".Result: Borate, BO3-33. Write the equation.H+ + BO3-34. Since the charge of borate is -3, the formula is written as: H3BO3Boric Acid: H3BO3Ex. Chlorous acid (prefix "hydro-" is absent, ends with "-ous acid")1. Drop "-ous acid".Chlor2. Replace "-ous acid" with "-ite".Result: Chlorite, ClO2-13. Write the equation.H+ + ClO2-4. Since the charge of chlorite is -1, the formula is written as: HClO2.Chlorous acid: HClO2To summarize:Acid formula format: H+ + Anion Compound (Cation + Anion)1. Identify anion by removing the prefix (if applicable) and changing the suffix accordingly.2. Identify the formula by writing the equation and determining number of hydrogen atoms in the acid per the anion's charge.
benefits derived from biotechnology
The subscript of the second ion identifies the oxidation state of the transition metal
Length is fundamental, area is derived.
A derived noun is a noun that is based mostly on verbs.Examples of derived nouns:combinationconclusiondegradationestimationformalizationglamorizationimplicationjustificationnavigationnominationorganizationpopularizationunificationvisualization
He was dead.
In coordinate geometry, the following formula will give a sphere with centre (a, b, c) and radius r: (x-a)2 + (y-b)2 + (z-c)2 = r2
The phosphate molecule - (PO4)3- - is an anion (negative ion).
class superclass { public: superclass() {... } // c'tor public: virtual ~superclass() {... } // d'tor }; // superclass class derived: public superclass { public: derived() : superclass() { ... } // derived c'tor public: virtual ~derived() {... } // derived d'tor }; // derived class
explain formula transformation