2) Predicting acid-base equilibrium. Write equations for the following acid-base reactions and predict (by trends) which side the equilibrium prefers: a. CH3CH2OH + NaN(CH3)2
b. CH3NH3 + + CH3O
c. CH3CHFCO2H + FCH2CH2CO2 -
d. NaOH + H2S
e. CF3CO2H + CH3CO2
2) Predicting acid-base equilibrium. Write equations for the following acid-base reactions and predict (by trends) which...
1) Recognizing acid-base reactions. Write equations for the following acid-base reactions and predict (either by trends or by checking pKa values) which side the equilibrium prefers: a. CH3OH + NaNH2 b. HCl + H2O c. KOCH3 + HCN d. HCOOH + NaOH
Write the net equations and determine the equilibrium constants for the acid-base reactions that occur when aqueous solutions of the following are mixed. (Use the lowest possible coefficients. Omit states-of-matter in your answer. Your reaction arrow may be either a right arrow (-->) or an equilibrium arrow (<=>), depending upon the value of Keq for the reaction. Use the Acid/Base Table. (a) acetic acid (CH3COOH) and ammonia, K= (b) hydrochloric acid and sodium hydroxide (Please write the conjugate acid and...
2. Predict the plausible products of the following reactions and write balanced equations for their formation. Use the stoichiometry as indicated for the left side of the reaction.Draw the geometric structures of the products. Predict the plausible products of the following reactions and write balanced equations for their formation. Use the stoichiometry as indicated for the left side of the reaction. Draw the geometric structures of the products c. [Pd(CN) CN? d. WCl63Br e. Co2(CO)s+ CHI- f. Ni(CO)4 +2PPh3 Predict...
Use the Acid-Base Table to write net equations and to determine the equilibrium constants for the Bronsted acid-base reactions that occur when aqueous solutions of the following are mixed. See the instructions for writing chemical equations given above. Reactants Acid(1) + Base(2) = Base(1) + Acid(2) K a) HClO4 and KF b) HIO3 and NH3 c) HCN + KClO Click here to preview your answer.
Use the Acid-Base Table to write net equations and determine the equilibrium constants for the Bronsted acid-base reactions that occur when aqueous solutions of the following are mixed. Substances Acid(1) + Base(2) -> Base(1) + Acid(2) K HC2H3O2 + Na2HPO4 KNO2 + HIO3 HF + KClO
Please write the net ionic equations for the following acid-base reactions. HCl reacting with NaOH NaHSO4 reacting with NaOH HCl reacting with NH3 NaHSO4 reacting with NH3 (potentially helpful information: HSO4(^-) is a weak acid. HCl and NaOH are strong electrolytes)
Write net Bronsted equations and determine the equilibrium constants for the acid-base reactions that occur when aqueous solutions of the following are mixed.Instructions:Enter all substances in the order listed at the top of the column.Use a carot to indicate a superscript, but do nothing for subscripts.Use a hyphen + greater than (->) for yields.Click on the eye symbol to check your formatting.Report K to three sig figs even though it is good to only two.Group 1A and 7A ions (except...
Q 33 - (2 pts) Predict the position of equilibrium for the following acid-base reaction. + A) reactants side (Keq <1); B) products side (Keq >1); C) reactants and products are at the equilibrium (Keq =1);
Write the products and estimate the equilibrium constant (show your work) for each of the following acid-base reactions: 17. (See attached Table.) 3 Conjugate Base Approximate p SbFi S- 12 -10 H2SO -6.5 (CHIO (CHIC-o CH30H H20 NO3 -2.9 -1.74 Hj0 0.18 CF CO,H 4.75 CH,CO,H H CO CH,COCH COCHs NH4 80 / Ψ HCO CH3NH3 H20 CH,NH2 15.7 CH,CH20 (CHs) CO 16 18 (CH3),СОН CH,COCH HC CH NH3 CH,CH2 CH,CH 9.31 Write the products and estimate the equilibrium constant...
Q7 Predicting Reactions 9 Points Predict the products or reactants for the following neutralization reaction and then balance the reactions A) BaBra (aq) + H20 (1) B) Ca(OH)2 (aq) + HNO3 (aq) --> C) ___ CH3COOH (aq) + NH3 (aq)-> + Please select files) Select files) Q8 Bronsted-Lowry Reactions 5 Points Q8.1 1 Point H2S (aq) + KCN (aq) -> KOH (aq) + HCN (aq) Which substance is the acid in this reaction? O H2S (aq) 0 KCN (84) O...