bbb. acid donates a proton (h+) = molecule that is formed when a brønsted - lowry\nccc.\nddd. = oxygen…

bbb. acid donates a proton (h+) = molecule that is formed when a brønsted - lowry\nccc.\nddd. = oxygen double bonded to a carbon.\n = force that occurs between all neighboring\nmolecules and arise because of the electron distribution between molecules that is\nconstantly changing.\neee.\n = class of organic compounds\nthat contains an oxygen atom bonded to two carbon atoms where both of those carbon\natoms are a carbonyl.\nfff.\n = systematic naming prefix for 12 carbons\nggg.\n = a class of organic compound in which a carbon is double bonded\nto a n\nhhh.\n = forces used to make macromolecules\nii.\n = a class of organic compound in which a carbon is triple bonded to a n\njjj.\n = systematic naming prefix for 11 carbons\nkkk.\n = a class of organic compounds that contains an two sulfur\natoms bonded together\nlll.\n =systematic naming prefix for 1 carbon\nmmm.\n = chemical species that accepts a\nhydrogen ion in a chemical reaction\nnnn.\n = systematic naming prefix for 3 carbons\nooo.\n = a class of organic compound in which a nitrogen atom is\nbonded to one or more carbon atoms and one of those carbon atoms are carbonyl\nppp.\n = systematic naming prefix for 4 carbons\nqqq.\n class of organic compounds that contains a halogen bonded to a\ncarbon.\nr rr.\n = systematic naming prefix for 7 carbons\nsss.\n = a functional group derived from ether in which 1 carbon has\nbeen replaced by phosphorous atom\nttt.\n = systematic naming prefix for 10 carbons\nuuu.\n = carboxylic acid group that has lost a\nproton in solution and has a negative charge\nvvv.\n = systematic naming prefix for 13 carbons

bbb. acid donates a proton (h+) = molecule that is formed when a brønsted - lowry\nccc.\nddd. = oxygen double bonded to a carbon.\n = force that occurs between all neighboring\nmolecules and arise because of the electron distribution between molecules that is\nconstantly changing.\neee.\n = class of organic compounds\nthat contains an oxygen atom bonded to two carbon atoms where both of those carbon\natoms are a carbonyl.\nfff.\n = systematic naming prefix for 12 carbons\nggg.\n = a class of organic compound in which a carbon is double bonded\nto a n\nhhh.\n = forces used to make macromolecules\nii.\n = a class of organic compound in which a carbon is triple bonded to a n\njjj.\n = systematic naming prefix for 11 carbons\nkkk.\n = a class of organic compounds that contains an two sulfur\natoms bonded together\nlll.\n =systematic naming prefix for 1 carbon\nmmm.\n = chemical species that accepts a\nhydrogen ion in a chemical reaction\nnnn.\n = systematic naming prefix for 3 carbons\nooo.\n = a class of organic compound in which a nitrogen atom is\nbonded to one or more carbon atoms and one of those carbon atoms are carbonyl\nppp.\n = systematic naming prefix for 4 carbons\nqqq.\n class of organic compounds that contains a halogen bonded to a\ncarbon.\nr rr.\n = systematic naming prefix for 7 carbons\nsss.\n = a functional group derived from ether in which 1 carbon has\nbeen replaced by phosphorous atom\nttt.\n = systematic naming prefix for 10 carbons\nuuu.\n = carboxylic acid group that has lost a\nproton in solution and has a negative charge\nvvv.\n = systematic naming prefix for 13 carbons

Answer

Brief Explanations:

bbb. When a Brønsted - Lowry acid donates a proton ($H^+$), it forms a conjugate base. ccc. Oxygen double - bonded to a carbon is a carbonyl group. ddd. The force that occurs between all neighboring molecules due to constantly changing electron distribution is London dispersion force. eee. The class of organic compounds with an oxygen atom bonded to two carbon atoms where both carbon atoms are part of a carbonyl is an ester. fff. The systematic naming prefix for 12 carbons is dodeca-. ggg. A class of organic compound in which a carbon is double - bonded to a N is an imine. hhh. Forces used to make macromolecules include covalent bonds. iii. A class of organic compound in which a carbon is triple - bonded to a N is a nitrile. jjj. The systematic naming prefix for 11 carbons is undeca-. kkk. A class of organic compounds that contains two sulfur atoms bonded together is a disulfide. lll. The systematic naming prefix for 1 carbon is meth-. mmm. A chemical species that accepts a hydrogen ion in a chemical reaction is a Brønsted - Lowry base. nnn. The systematic naming prefix for 3 carbons is prop-. ooo. A class of organic compound in which a nitrogen atom is bonded to one or more carbon atoms and one of those carbon atoms is carbonyl is an amide. ppp. The systematic naming prefix for 4 carbons is but-. qqq. The class of organic compounds that contains a halogen bonded to a carbon is a haloalkane. rrr. The systematic naming prefix for 7 carbons is hepta-. sss. A functional group derived from ether in which 1 carbon has been replaced by a phosphorous atom is a phosphite. ttt. The systematic naming prefix for 10 carbons is deca-. uuu. A carboxylic acid group that has lost a proton in solution and has a negative charge is a carboxylate ion. vvv. The systematic naming prefix for 13 carbons is trideca-.

Answer:

bbb. Conjugate base ccc. Carbonyl group ddd. London dispersion force eee. Ester fff. Dodeca - ggg. Imine hhh. Covalent bonds iii. Nitrile jjj. Undeca - kkk. Disulfide lll. Meth - mmm. Brønsted - Lowry base nnn. Prop - ooo. Amide ppp. But - qqq. Haloalkane rrr. Hepta - sss. Phosphite ttt. Deca - uuu. Carboxylate ion vvv. Trideca -