At equilibrium, why is this statement incorrect?
[C7H5O-]=[HC7H5O]=[OH-]>[H3O+]
At equilibrium, why is this statement incorrect? [C7H5O-]=[HC7H5O]=[OH-]>[H3O+]
For an aqueous acidic solution, which of the following is true? [H3O+]<[OH-] O [H3O+] = OH [H3O+] > OH-1 2 x [H3O+] = [OH-]
For each of the following strong base solutions, determine [OH−][OH−] and [H3O+][H3O+] and pHpH and pOHpOH. 1.) For 8.73×10−38.73×10−3 MM LiOHLiOH, determine [OH−][OH−] and [H3O+][H3O+]. Express your answers in moles per liter to three significant figures separated by a comma. 2.) For 1.10×10−21.10×10−2 MM Ba(OH)2Ba(OH)2, determine [OH−][OH−] and [H3O+][H3O+]. Express your answers in moles per liter to three significant figures separated by a comma. 3.) For 2.1×10−42.1×10−4 MM KOHKOH, determine [OH−][OH−] and [H3O+][H3O+]. Express your answers in moles per liter...
16. a) (4 points) Propose a mechanism for the following isomerization reaction: OH H3O+ ОН b) (4 points) Briefly explain why above reaction equilibrium favors compound B.
Calculate either [H3O+][H3O+] or [OH−][OH−] for each of the solutions at 25 °C.25 °C. Solution A: [OH−]=2.99×10−7 MSolution A: [OH−]=2.99×10−7 M Solution A: [H3O+]=Solution A: [H3O+]= MM Solution B: [H3O+]=9.65×10−9 MSolution B: [H3O+]=9.65×10−9 M Solution B: [OH−]=Solution B: [OH−]= MM Solution C: [H3O+]=0.000577 MSolution C: [H3O+]=0.000577 M Solution C: [OH−]=Solution C: [OH−]= MM Which of these solutions are basic at 25 °C?25 °C? Solution A: [OH−]=2.99×10−7 MSolution A: [OH−]=2.99×10−7 M Solution B: [H3O+]=9.65×10−9 MSolution B: [H3O+]=9.65×10−9 M Solution C: [H3O+]=0.000577...
Calculate either [H3O+] or [OH−] for each of the solutions. Solution A:[OH−]=2.59×10−7 M Solution A: [H3O+]= M Solution B:[H3O+]=8.91×10−9 M Solution B: [OH−]= M Solution C:[H3O+]=7.61×10−4 M Solution C: [OH−]= M Which of these solutions are basic at 25 °C? A:[OH−]=2.59×10−7 M B:[H3O+]=8.91×10−9 M
Calculate either [H3O+] or [OH-] for each of the solutions. Solution A: [OH-] = 1.29 x 10-7 M Solution A: [H3O+] = M Solution B: [H3O+] = = 9.97 x 10-9 M Solution B: [OH-] = M Solution C: [H3O+] = 6.69 x 10-4 M Solution C: [OH-] = M Which of these solutions are basic at 25 °C? A: [OH-] = 1.29 x 10-7 M
If [H3O+] = 2.65x10–4 M, what is [OH–]? If [H3O+] = 2.65x10–4 M, what is [OH–]? a. 2.65 x 10–18 M b. 2.65 x 1010 M c. 2.65 x 10–4 M d. 3.77 x 10–11 M
Provide a brief statement to explain why the following equilibrium favors the enol tautomer. Please further explain the corrected answer written in red. 12) Provide a brief statement to explain why the following equilibrium favors the enol tautomer. OH ccouse it has mere Stap:Aky dve れ) (esonance romatic Slabi hat 12) Provide a brief statement to explain why the following equilibrium favors the enol tautomer. OH ccouse it has mere Stap:Aky dve れ) (esonance romatic Slabi hat
?? PH1. Select ALL the correct statement(s) about a solution with a pH of 4.5. [OH-] > 1.0 x 10-7M It is acidic H30+] < [OH] [H3O+] > 1.0 x 10-7M [H3O+] > [OH) PH2. Select ALL the correct statement(s) about a solution with a pH of 8.5. [H3O+] < [OH-] [H3O+] > [OH-] [OH-] > 1.0 x 10-7M [H3O+] > 1.0 x 10-7M It is basic
pH [H3O+] [OH−] 0.1 L solution 2.5 3.2*10^-3 3.2*10^-12 1.0 L solution 3.50 3.2*10^-4 3.2*10^-11 Find the product of the [H3O+] and the [OH−] for the 0.1 L solution. Find the product of the [H3O+] and the [OH−] for the 1.0 L solution. Select the statement that best answers the following question What is the relationship between [H3O+] and [OH−] for the solutions? The product of [H3O+] and the [OH−] is greater for a solution with a higher pH. The...