Calculate the [OH−] of each aqueous solution with the following [H3O+].
baking soda, 1.9×10−8M
blood, 4.5×10−8M
milk, 3.5×10−7M
pancreatic juice, 4.4×10−9M
Calculate the [OH−] of each aqueous solution with the following [H3O+]. baking soda, 1.9×10−8M blood, 4.5×10−8M...
Calculate the [OH−] of each aqueous solution with the following [H3O+]. A) baking soda, 1.5×10−8M Express the molarity to two significant figures. [OH−] =? M B) milk, 5.0×10−7M Express the molarity to two significant figures. [OH−] =? M C) pancreatic juice, 4.5×10−9M Express the molarity to two significant figures. [OH−] =? M
Calculate the [OH−] of each aqueous solution with the following [H3O+]. Part A - baking soda, 1.1×10−8M Express the molarity to two significant figures Part B- blood, 4.5×10−8M Express the molarity to two significant figures. Part C- milk, 3.0×10−7M Express the molarity to two significant figures. Part D- pancreatic juice, 3.9×10−9M Express the molarity to two significant figures.
Calculate the [OH−] value of each aqueous solution. A.) oven cleaner, with [H3O+]=1.0×10−12M Express your answer using two significant figures. B.) milk of magnesia with [H3O+]=3.0×10−9M. Express your answer using two significant figures. C.) aspirin with [H3O+]=6.5×10−4M. Express your answer using two significant figures. D.) pancreatic juice with [H3O+]=3.5×10−9M Express your answer using two significant figures.
Calculate the [OH−] of each aqueous solution with the following [H3O+]:orange juice, 2.4×10−4M and bile, 6.0×10−9M
a.) Calculate [OH−] in the following aqueous solution at 25 ℃: [H3O+]= 1.9×10−8 Mb.) Calculate [OH−] in the following aqueous solution at 25 ℃: [H3O+]= 6.5×10−5 M .c.) Calculate [OH−] in the following aqueous solution at 25 ℃: [H3O+]= 3.2×10−2 M .
Calculate the [H3O+] of each aqueous solution with the following [OH−]: 1. stomach acid, 2.5×10−13M 2. urine, 8.5×10−9M 3. orange juice, 7.9×10−11M 4. bile, 2.8×10−6M
1) A solution has [H3O+] = 4.0×10−5 M . Use the ion product constant of water Kw=[H3O+][OH−] to find the [OH−] of the solution. Express your answer to two significant figures. Calculate the [OH−] value of each aqueous solution. 1)milk of magnesia with [H3O+]=3.0×10−9M. Express your answer using two significant figures. 2)pancreatic juice with [H3O+]=4.0×10−9M Express your answer using two significant figures. Carbonated cola is more acidic than coffee or even orange juice because cola contains phosphoric acid. What is...
Calculate the [H3O+] value of each aqueous solution. NaOH with [OH−]=6.0×10−3M milk of magnesia with [OH−]=1.8×10−5M. aspirin with [OH−]=1.4×10−11M. seawater with [OH−]=3.5×10−6M
D Question 17 4 pts Calculate the [H3O+] of each aqueous solution with the following (OH). NaOH solution with (OH'] = 1.0 x 102 [Choose] [H3O+] - ? [Choose] aspirin with (OH') - 1.8 x 10-11 M [H30*] ? [Choose] milk of magnesia with (OH-) - 1.0x 105M [H₃O+]=? sea water with (OH) - 2,5 x 10M (H.0"-
1.Calculate the pH of each solution and indicate whether the solution is acidic or basic. A. [H3O+] = 1.8 x 10-4M B.[H3O-] =7.2 x 10-9M 2.Calculate the [OH-] in each solution and determine whether the solution is acidic =, basic, or neutral. A. [H3O+] = 7.5 x 10-5M B. [H3O+] = 1.5 x 10-9M C.[H3O+] = 1.0 x 10-7M 3. Write a molecular equation for the neutralization reaction between aqueous HCI and aqueous Ca(OH)2?