Determine the number of grams of HCI that can react with 0.750 g of AI(OH); according to the following reaction Al(OH),(s) + 3 HCI(aq) → AICI3(aq) + 3 H,0(aq) STARTING AMOUNT ADD FACTOR ANSWER RESET *( ) 0.0288 78.00 6.022 x 1023 133.33 0.351 2.25 9.60 x 103 0.117 0.750 1.05 36.46 18.02 g AICI, g AICI, g H20 g Al(OH), mol H20 mol HCI g HCI mol AICI, LANO L

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Course Modules: MATH 020 A so Chem101 C Search Textbook Solutions | Cl G What volufme app.101edu.co Apps M Gmail Maps O YouTube O Translate Question 19 of 59 Determine the number of grams of HCI that can react with 0.750 g of Al(OH)3 according to the following reaction Al(OH);(s) + 3 HCI(aq) → AICI3(aq) + 3 H;O(aq) STARTING AMOUNT ADD FACTOR ANSWER RESET *( ) 0.0288 78.00 6.022 x 1023 133.33 0.351 2.25 3 9.60 × 10¯³ 0.117 0.750 1.05 36.46 18.02 1 g AICI3 g AICI3 g H20 g Al(OH)3 mol H20 mol HCI g HCI mol AICI3 mol AICI; mol Al(OH)3 14 tv

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Course Modules: MATH 020 A X 101 Chem101 -> A app.101edu.co Apps M Gmail A Maps O YouTube E Translate Question 18 of 59 According to the balanced reaction below, calculate the moles of NO, that form when 5.20 x 103 mol of N2O5 completely reacts: 2 N2O5(g) → 4 NO2(g) + O2(g) STARTING AMOUNT ADD FACTOR ANSWER RESET 32.00 108.02 0.0104 46.01 0.0208 2 5.20 × 103 4 1 6.022 x 1023 2.60 x 103 1.30 x 103 g O2 g NO2 g N205 mol O2 mol N2O5 mol NO2