(a) (5 points) Predict the products for the following acid-base reaction. Then, predict the direction of...
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);
9. Draw the products of the following acid-base reaction (equimolar amount) and determine the direction of equilibrium. (10pts) OH + NaOH OH
Predict the products of the acid-base reaction between the following substances: *Draw* the molecules or ions. Predict the products of the acid-base reaction between the following substances: Draw the molecules or ions.
3. a) For the following reaction, label the acid and the base. Then draw the structures of the conjugate acid and base. н ............ conjugate acid conjugate base b) Clearly show the movement of electrons (arrow-pushing mechanism) for the reaction. c) Write the pka values under the acid and conjugate acid. Draw your equilibrium arrow to favor the direction toward the weaker acid (think about what the pka value tells you about acidity).
Predict the products of the acid-base reaction between the following substances Acetic acid and CH3=NH2
Part A Predict the products of the acid-base reaction between the following substances: Interactive MarvinView
Q 10- For the following acid-base reaction, predict which side the equilibrium is favored (circle or draw an arrow pointing the favored side). Calculate the Keg from the pKa given. PK, -30 Kea pk, 10
Acid-base reactions (5 pts total) 3. (a) (2 pts) The acids are missed from the following acid-base reactions. Fill the missing acids to complete the acid-base reaction and label all Hs that are transferred in the acid-base reaction. (b) (2 pts) Draw curved arrows on the reaction above to complete the arrow-pushing mechanism of this acid-base reaction. Products Reactants (c) (1 pt) The equilibrium will favor (circle one): 4. Cycloalkane (12 pts) (a) (6 pts) Properly name the tri-substituted cycloalkane...
1) Consider the acid-base reaction below. A) Predict the products and show the arrow.pushing mechanism and all of the resonance structures for any resonance-stabilized products. B) Estimate K for this reaction. + Na o
For the Bronsted acid? base reaction shown below, determine the conjugate acid? base pairs. Then give the curved-arrow notation for the reaction in the left-to-right direction. (To draw the arrows, click on Fill in the blanks with the letters A,B,C, and D, representing the species in the reaction above. (It doesn?t matter which pair you list first.) acid and its conjugate base acid and its conjugate base