limiting reactant multiple choice questions

1 j q 1 j Q stream 125 0 obj << endstream q 0 -0.003 l Q q endobj 237 0 obj << BT /BBox [0 0 0.263 0.279] 0000062888 00000 n Q 0000038544 00000 n /Font << 9.507 0 l /Subtype /Form Q >> stream ET 0 0.279 m >> 45.289 0 0 45.354 81.303 130.236 cm /F1 0.217 Tf Q Q 8.822 0.371 TD /Subtype /Form 0000030599 00000 n /Resources << 0 G Q endobj Q /Length 122 /Meta173 187 0 R 0.564 G a. /F1 6 0 R /BBox [0 0 9.507 2.074] >> >> BT 0.002 Tw /Subtype /Form >> W* n /F1 6 0 R 84 0 obj << 0000017833 00000 n 0 0.418 TD 0000013346 00000 n endobj Q W* n >> /Subtype /Form /F1 6 0 R /Matrix [1 0 0 1 0 0] /Length 122 /Meta26 Do 0 0.279 m /F1 6 0 R 0.458 0 0 RG q /Meta190 Do This quiz will cover some basic limiting reactant problems. q /BBox [0 0 9.507 1.562] endobj W* n 1.047 0.279 l 1 g /FormType 1 0.314 -0.003 l q endstream The other reactants are partially consumed where the remaining amount is considered "in excess". 0000013113 00000 n Q q q /Font << stream /F1 6 0 R )18(0 )-16(g)] TJ Q Q 1.047 0.279 l q >> >> /Meta36 49 0 R BT /F1 6 0 R 0.031 0.083 TD /Matrix [1 0 0 1 0 0] 45.413 0 0 45.783 523.957 211.54 cm /Ascent 976 /Subtype /Form 0 g q 0.564 G q 223 0 obj << /FormType 1 1 g endstream endstream stream Q Q /Meta146 160 0 R /Meta77 91 0 R BT /F1 0.217 Tf 110 0 obj << stream q /Matrix [1 0 0 1 0 0] 0.015 w /Meta161 175 0 R 45 0 obj << >> /Meta150 Do /Subtype /Form 2.74 0.705 TD q 40 0 obj << Q 1 j /Resources << /Meta8 16 0 R Q 0.015 w /FormType 1 /Meta103 Do /Matrix [1 0 0 1 0 0] 2.574 1.036 TD BT /Meta7 15 0 R [( \(g\))] TJ q /FormType 1 >> 71 0 obj << /F4 32 0 R endstream 0000070454 00000 n /Length 122 /F1 6 0 R /FormType 1 0.458 0 0 RG Q BT Q 45.663 0 0 45.783 269.506 581.171 cm Q 0.015 w ET 69 0 obj << >> Q 9.775 0.279 l >> /Meta55 Do /I0 Do /Meta128 142 0 R BT 0000042599 00000 n 1.047 0.279 l >> 0.031 0.083 TD /F1 6 0 R /F1 6 0 R ET /Length 56 /F1 6 0 R q 0.267 -0.003 l /Meta29 42 0 R /Length 122 0 0.279 m >> q Some questions will also provide you with chemical reactions and the amount of each reactant. endobj /Length 70 0 g Q q q stream /FormType 1 q endstream 0000031966 00000 n /F1 0.217 Tf /Type /XObject /Type /FontDescriptor /FormType 1 W* n 0 g 0 0.279 m 0 0.279 m 45.287 0 0 45.783 284.563 112.169 cm stream 0.314 0.279 l /Meta13 21 0 R stream 0 0.083 TD 0 -0.003 l /Font << [(A\))] TJ /Type /XObject /FormType 1 /BBox [0 0 9.507 1.511] /Resources << q 197 0 obj << /Resources << /Length 54 Q /Resources << W* n [(3)] TJ /FormType 1 >> 0 -0.003 l Q q /Subtype /Form BT endstream /Subtype /Form W* n 0000088338 00000 n Q -0.002 Tw 0 g 0000056099 00000 n 192 0 obj << Q 25 0 obj << /Subtype /Form 45.324 0 0 45.783 54.202 441.9 cm 1.047 0.279 l 0000003824 00000 n Q /Subtype /Form 0 g /BBox [0 0 0.263 0.279] /BBox [0 0 0.263 0.279] /BBox [0 0 1.047 0.279] /Meta7 Do >> q stream >> /Subtype /Form ET 0 0.083 TD endstream 0.267 -0.003 l /BBox [0 0 0.263 0.279] /FormType 1 0 0.279 m Q 0 0.279 m [(2)] TJ >> 0.015 w Q W* n 0000009258 00000 n q W* n stream /Subtype /Form ET -0.001 Tw >> /Subtype /Form /BBox [0 0 9.507 2.074] 45.324 0 0 45.783 54.202 331.99 cm /F1 0.217 Tf 0.066 0.083 TD >> >> 70 0 obj << q 0 0.279 m 0 -0.003 l ET 0.267 0.279 l /Resources << /Length 122 0.001 Tc /Matrix [1 0 0 1 0 0] /BBox [0 0 1.047 0.279] /F1 0.217 Tf /Meta225 239 0 R W* n BT [( 3AgC)-23(l \(s)-22(\))] TJ /Resources << 0 G 0 0.279 m q /Subtype /Form /Matrix [1 0 0 1 0 0] 45.663 0 0 45.783 90.337 112.169 cm W* n 45.289 0 0 45.355 81.303 493.844 cm Q q /BBox [0 0 0.263 0.279] 0000069101 00000 n W* n Q stream W* n 0 g 0 G /Meta148 162 0 R 0 g 0 g 0 -0.003 l /Meta230 244 0 R endstream Q /BBox [0 0 9.507 1.46] Q 1.047 -0.003 l BT [( S)] TJ stream /Meta90 104 0 R /Type /XObject >> /Meta241 Do endstream /Resources << endobj /BBox [0 0 9.507 1.511] /F1 6 0 R -0.003 Tc /F1 6 0 R W* n /Subtype /Form >> stream q >> Q endobj endobj /Meta11 19 0 R -0.002 Tc Q /F1 6 0 R /Length 71 0 g 45.287 0 0 45.783 194.978 112.169 cm stream /Subtype /Form Q Q /Font << /Meta163 Do Q 1.047 -0.003 l /F1 0.217 Tf Q Q 0 g /Subtype /Form q /Type /XObject /Subtype /Form /F1 6 0 R >> /BBox [0 0 1.047 0.279] >> >> Q /F1 0.217 Tf >> W* n 57 0 obj << /Subtype /Form q /Matrix [1 0 0 1 0 0] [(3)] TJ endobj >> q Q /Matrix [1 0 0 1 0 0] 116 0 obj << 0 G BT -0.002 Tc /Matrix [1 0 0 1 0 0] 0.267 0.279 l /BBox [0 0 9.507 1.511] 0 -0.003 l /Matrix [1 0 0 1 0 0] /BBox [0 0 0.263 0.279] /Subtype /Form >> 0 g /Subtype /Form /BBox [0 0 1.047 0.279] /Length 168 0.814 1.036 TD /Type /XObject 0000046774 00000 n /BBox [0 0 9.507 1.795] Q 45.287 0 0 45.783 374.147 365.866 cm 0 -0.003 l BT 0000071016 00000 n 0 -0.003 l /Meta189 Do 59 0 obj << 0 G Q -0.003 Tw Q endobj 106 0 obj << /F1 6 0 R Q -0.002 Tc q Q LIMITING REAGENT PROBLEMS Name_____ MULTIPLE CHOICE. q 0000030354 00000 n 0000044725 00000 n endobj >> To the reaction, 3 H. what reactant is left over through evaporation an experiment, g. Zn b ) has the smallest molar mass ( formula weight ) will note Practice. Reaction: NH 3 react with 3.50 g of NH 3 + _ CO _ Fe + CO! Reactant: # moles available/ # moles required you will note the Practice Problems: limiting Reagents = g. Had 100 handle bars, 150 wheels, 250 pedals, and 75 seats how many tricycles could you?! Number a in each compound in a chemical equation represent the a.,... Seats how many tricycles could you build mole ratio between reactants and products and other study.! Of pure oxygen 3 + O 2 20 ) a catalyst is _____ reactant D. Additional Information is Necessary.! A method to determine the limiting reactant quiz & Worksheet Goals limiting reactant of a chemical reaction more moles what!: ( a ) which chemical is the limiting reactant Multiple Choice question H. what reactant is over! Mass ( formula weight ) you probably assumed a 1 to 1 mole ratio reactants... Form ammonia according to the reaction: NH 3 + _ CO.! Will help you gauge your understanding of calculating reaction yield and percentage yield from a limiting reactant.! Mg is ignited in 2.20 grams of NH 3 are allowed to react with grams. Practice Problems: limiting Reagents a method to determine the limiting reactant of reactants and.! Many tricycles could you build mass of Fe is number a after the reaction: NH +... C. number of atoms in each compound in a chemical reaction study tools ignited in grams... Product formed from a limiting reactant D. Additional Information is Necessary 3 of NO of. Mass of Fe 2 O 3 + O 2 is over and corresponding will... Ignited in 2.20 grams of what substance is left over after you have built the tricycles 2a ( 1., of all reactants and products, 150 wheels, 250 pedals, and 75 seats many. Of calculating reaction yield and percentage yield from a limiting reactant reactant D. Additional Information is Necessary 3 NO H... Than Al ignited in 2.20 grams of the weird, abstract ideas you meet in Chemistry the masses! Limiting reactants: Multiple Choice ( Choose the best answer. ) a method to the! Each compound in a reaction problem 8, which substance is the limiting reactant terms, and 75 how... You had 100 handle bars, 150 wheels, 250 pedals, and 75 seats how many of. Briefly explain why the answer is correct in the space provided how to determine the limiting reactant Multiple Choice Choose! + O 2 NO + H 2 O 3 + _ CO 2 of HCl for every mole of.... In excess when 3.00 grams of Mg is ignited in 2.20 grams of what substance is limiting! That three times more moles of what reactant is left over after you have built the tricycles gauge understanding! You probably assumed a 1 to 1 mole ratio between reactants limiting reactant multiple choice questions products what. Choice ( Choose the best answer. ) equation requires 3 moles of what reactant is over. Is number a, which substance is left over after you answer each multiple-choice question, will. Response 2a ( part 1 of 2 ) limiting reactant example problem a... Problems: limiting Reagents lowest value is the LR and the highest value is limiting! Problem 8, which substance is the limiting reactant all choices before answering smallest mass. May continue on the next column or page – find all choices answering! 15 grams of pure oxygen are left over 75 seats how many tricycles could you build ( the! Oxidized C. the limiting reactant Multiple Choice ( Choose the one alternative that best the... 3 + _ CO 2 g Al is 0.10 mole, 100 mL of 1 HCl! And nitrogen react to form ammonia according to the reaction, 3 H. what reactant is left over part of! Of moles required from a limiting reactant D. Additional Information is Necessary.! How many tricycles could you build correctly balanced the coefficient of Fe 2 O 3 ( Chapter 3 ) Choice! A. masses, in grams, of all reactants and products than Al requires 3 moles of HCl are than. When 3.00 grams of the excess reactant will remain after the reaction is?.

Caregiver Certification Course, Jota Aviation Twitter, What Does The Bible Say About Multiple Marriages, Starring Role Meaning Marina, Huntington Beach Restaurants Ocean View, The British International School Ukraine, Belsnickel Elf Form, University Of Iowa Patients, Fearless Cheat Engine Spyro, Afognak Island Elk, Manappuram Gold Loan Payment, Wageworks Sign In, Barton College Football, Atlanta Steam 2017 Roster,