Basic. Na+ is the conjugate acid of a strong base, NaOH. The conjugate base of a strong acid is neutral. ClO- is the conjugate base of a weak acid, HClO, so it acts as a weak base in solution.
Personally, I use this method to determine if an ionic solid is acidic/basic/neutral. Let's take a look at the ions in this compound: Ca2+ and CO32- . Ca2+ is found in Ca(OH)2 , which is a very strong base. CO32- is found in H2CO3 , which is a weak acid. So, one ion comes from a strong base, while another comes from a weak acid. Overall, this compound must be basic. There are also other methods. You can add an acid to the solid. There is a reaction, so the solid must be basic. If you add a base, it doesn't react.
Acidic oxides form acids with water: eg SO2 + H2O --> H2SO3 Basic oxides form basic salts (alkaline) with water: eg. CaO + H2O --> Ca(OH)2 Amfotheric oxides have both acidic and base properties: eg. Aluminium oxide is an amphoteric oxide, which means that it displays both acidic (1) and base (2) properties: 1. Al2O3 + H2O --> 2 Al(OH)2- + 2 H+ 2. Al2O3 + H2O --> 2 Al3+ + 3 OH-
A lime itself contains citric acid, so it is acidic. Base is actually the opposite of acid. Ca(OH)2 is sometimes referred to as lime, and this is basic (the opposite of acid)
Ca
Water is usually neutral. In the event that the water is acidic, it can be neutralized by adding a base. Calcium Hydroxide is an example of a basic substance.
Basic. Na+ is the conjugate acid of a strong base, NaOH. The conjugate base of a strong acid is neutral. ClO- is the conjugate base of a weak acid, HClO, so it acts as a weak base in solution.
Personally, I use this method to determine if an ionic solid is acidic/basic/neutral. Let's take a look at the ions in this compound: Ca2+ and CO32- . Ca2+ is found in Ca(OH)2 , which is a very strong base. CO32- is found in H2CO3 , which is a weak acid. So, one ion comes from a strong base, while another comes from a weak acid. Overall, this compound must be basic. There are also other methods. You can add an acid to the solid. There is a reaction, so the solid must be basic. If you add a base, it doesn't react.
Acidic Soil has a low pH . Remember the pH scale. 1 ( very acidic) ,, to 7 (neutral) ,, to 14 (very alkaline). Farmers often put lime on acidic soil in order to remove the acidity. As per the equation. 2H^+(aq) + Ca(OH)2(s) = Ca^(2+)(aq) + 2H2O(l) It should be noted that plants prefer acidic conditions, and other prefer more neutral/alkaline conditions.
Acidic oxides form acids with water: eg SO2 + H2O --> H2SO3 Basic oxides form basic salts (alkaline) with water: eg. CaO + H2O --> Ca(OH)2 Amfotheric oxides have both acidic and base properties: eg. Aluminium oxide is an amphoteric oxide, which means that it displays both acidic (1) and base (2) properties: 1. Al2O3 + H2O --> 2 Al(OH)2- + 2 H+ 2. Al2O3 + H2O --> 2 Al3+ + 3 OH-
Many oxides will react, especially in water, to form acids or bases. As a rule of thumb nonmetal oxides tend to be acidic while metal oxides tend to be basic or amphoteric. For example, carbon dioxide reacts with water to form carbonic acid so it is an acidic oxide. CO2 + H2O --> H2CO3 By contrast, calcium oxide reacts in water to form calcium hydroxide, so it is a basic oxide. CaO + H2O --> Ca(OH)2
Acidic oxides form acids with water: eg SO2 + H2O --> H2SO3 Basic oxides form basic salts (alkaline) with water: eg. CaO + H2O --> Ca(OH)2 Amfotheric oxides have both acidic and base properties: eg. Aluminium oxide is an amphoteric oxide, which means that it displays both acidic (1) and base (2) properties: 1. Al2O3 + H2O --> 2 Al(OH)2- + 2 H+ 2. Al2O3 + H2O --> 2 Al3+ + 3 OH-
A lime itself contains citric acid, so it is acidic. Base is actually the opposite of acid. Ca(OH)2 is sometimes referred to as lime, and this is basic (the opposite of acid)
Catolico or catolica ca-TOW-lee-co or ca-TOW-lee-ca
VA because CA, CO, and TX are at the west and VA is at the east.
Traveling from CA, you reach Utah before reaching CO.
Ca