Milk of magnesia is a suspension of magnesium hydroxide. It is sometimes taken to reduce heartburn...
milk of magnesia is a common liquid antacid that contains magnesium hydroxide. since magnesium hydroxide isnt highly soluble in water milk of magnesia is sold as a suspension (thick liquid) where the solute isnt dissolve it stays as a small solid particles homogeneously mixed throughout the liquid; it is estimated that 1.00 ml of milk of magnesia contains 80.0 mg of magnesium hydroxide . assuming that our stomach acid has a concentration of 0.166M HCL how much milk of magnesia...
Milk of magnesia, an over-the-counter antacid liquid, is a suspension of magnesium hydroxide in water. It neutralizes the hydrochloric acid in the stomach to alleviate some stomach symptoms associated with excess acid. In a laboratory, 1.11 g Mg(OH)2 is added to 231.8 mL of 0.1731 M HCl in water. They react according to the following equation. Mg(OH)2 + 2 HCl → MgCl2 + 2 H2O (a) What is the limiting reagent in this reaction? (b) How much magnesium chloride is...
Milk of magnesia is often taken to reduce the discomfort associated with heartburn. The recommended dose is one teaspoon, which contains 165 mg of Mg(OH)2. If the stomach contains 354 mL of pH 1.3 solution, what percent of the acid will be neutralized?
Integrated Problems #13 Milk of magnesia (Mg(OH)2)is often taken to reduce the discomfort associated with acid stomach or heartburn. The recommended dose is 1 teaspoon (5 mL) which contains 4.00 X 10-mg of Mg(OH)2. 1) Magnesium hydroxide is a slightly soluble salt. Write a balanced equilibrium reaction for this process. 2) The Ksp for Magnesium hydroxide is 2.06 X 10-13, what is the pH of the recommended dose of milk of magnesia? 3) If we assume that stomach acid is...
Question 13 of 15 Milk of magnesia, which is an aqueous suspension of magnesium hydroxide, is used as an antacid in the reaction below. How many molecules of HCI would have to be present to form 75.82 g of MgCl2? molecules (1 2 3 X 100
A common base found at home is milk of magnesia (antacids are bases). The active ingredient of milk of magnesia is magnesium hydroxide, a weak base. Magnesium hydroxide is used to neutralize excess stomach acid which is primarily HCl. How much HCl (in mg) could be neutralized from a normal dose of milk of magnesia if that dose contains 400 mg of Mg(OH)2? The correct answer is 500 mg but could you show your work so i understand how to...
Magnesium hydroxide, the active ingredient in milk of magnesia, neutralizes stomach acid, primarily HCl, according to the reaction Mg(OH)2(aq) + 2HCl(aq) + 2H2O(1) + MgCl2(aq) What mass of HCI, in grams, is neutralized by a dose of milk of magnesia containing 3.26 g of Mg(OH)2? The balanced chemical equation for the combustion of propane is C3H3(g) + 502(g) +3CO2(g) + 4H2O(g) Which statement is correct about the complete combustion of 3.00 mole of propane, C3H8?
Part A Magnesium hydroxide, the active ingredient in milk of magnesia, neutralizes stomach acid, primarily HCI, according to the reaction Mg(OH)2(aq) + 2HCl(ag) 2H2O()MgCl2(aq) How much HC1 in grams can be neutralized by 5.50 g of Mg (OH)2? Express your answer in grams to two decimal places. g HCl Submd Previous Answers Request Answer
Magnesium hydroxide, the active ingredient in milk of magnesia, neutralizes stomach acid, primarily HCl, according to the reaction Mg(OH)2 (aq) + 2HCl(aq) + 2H2O(1) + MgCl2 (aq) What mass of HCl, in grams, is neutralized by a dose of milk of magnesia containing 3.26 g of Mg(OH)2 ? Express the mass in grams to three significant figures. IVO ADD + R o 2 ? mass of HCl = g Submit Request Answer
7) Magnesium hydroxide, Mg(OH)2, as "Milk of Magnesia" can be used to neutralize excess stomach acid, represented by HCl(ag) according to the chemical equation below. Mg(OH)2(s)+2HCI (ag)-MgCl2(ag)+ 2H20( When 5.00 g of HCl are combined with an excess of Mg(OH)2, what mass of MgCl2 can be produced? [Molar masses: H, 1.01 g/mol; O, 16.00 g/mol; Mg, 24.31 g/mol; Cl, 35.45 g/mol] A) 2.50 g E) 70.5 g D) 6.53 g C) 0.957 g B) 13.1 g 8) What is the...