Post-Lab Questions .. Formic acid is completely soluble in water. Draw the structural formula of the...
Post-Lab Questions 1. Formic acid (methanoic acid) is completely soluble in water, Draw the struct acid is completely soluble in water. Draw the structures showing what happens when formic acid is added to water. Name the product. 2. Formic acid can be neutralized with NaOH. Draw the structures for the neutralization reaction. Name the product. 3. Hexanoic acid has an unpleasant odor, like the smell of goats. If you accidentally spilled some hexanoic acid on your hands, how could you...
Post-Lab Questions 1. Formic acid (methanoic acid) is completely soluble in water. Draw the structures showing what formic acid is added to water. Name the product w the structures showing what happens when Formic acid HCOOH is completely soluble in y cecause of the hydrogen bonding. That is why HCOOH is complet 2. Formic acid can be neutralized with NaOH.Draw the structures for the neutralization reaction. Namen product 3. Hexanoic acid has an unpleasant odor. like the smell of goats....
4. Name the functional group that links two monosaccharides in a disaccharide. Would that be the same kind of functional group linking monosaccharides in long-chain polysaccharides like amylose? Postlab Questions 1a) Formic acid or methanoic acid is completely soluble in water. Draw the secondary interaction of formic acid and water molecules. Be sure to specify what interaction takes place (e e dipole-dipole bond etc) n sodium hydroxide, NaoH is added to formic acid, the pH raised to 12. What happened...
6. Methanoic acid (formic acid) is infinitely soluble in water, while decanoic acid (capric acid) is almost completely insoluble. Based on a comparison of structures, explain the large difference in water solubility. (2 marks)
4. Find the structural formula for vitamin C on the Internet and draw the structural formula in the space provided. Indicate the Internet reference where you found the structure and the answer questions below. Internet References Structural Formula of Vitamin Vitamin Vitamin C (Ascorbic acid) a. List the functional groups present in the vitamin C molecule. A chart of the different functional groups is in your textbook. b. Why is vitamin C soluble in water? Hint: Think about the functional...
64 Experiment 9 Titration of an Acid with a Base QUESTIONS PRE LAB 1. How would the calculated concentration of the HCl be affected, if the sodium hydroxide were poured from a beaker that contained some water before the NaOH were added to it? 2. What color is phenolphthalein in acid? What color is it in base? 3. The acid and base in this experiment are completely harmless-True or False? Explain your answer.
Draw the products of the reaction of benzoic acid with NaOH (aq) and identify the conjugate acid and base in the products. Determine the direction of the equilibrium for this reaction and use pKa values to justify your answer. Is the organic product of this reaction water soluble? Why or why not? Using the chemicals provided, benzoic acid, Ethyl p-aminobenzoate, Fluorenone, Sodium Hydroxide, Hydrochloric Acid, Anhydrous Sodium Sulfate, Diethyl Ether , how might you convert this product back to the...
Can someone help with the 4 POST LAB questions thanks
Carboxylic Acids and Esters acid). like citric acid. Face crearboxyl the name implies, a Carbexylic Aclds A salad dressing made of The sour taste of fruits such as lemons is due to the presence of acids like citric acid. tcarboxyl a-hydroxy acids such functional group - that is, a carbonyl group attached to a hydroxyl group. AS dicarboxylic acid carboxylic acid of benzene is called benzoic acid (Figure 1). oil...
of Hydrofluoric acid (Ka-6.6 x 10") solution is titrated with f NaOH. Draw a titration curve, labeling the initial pH (when no sodium 40. 100 ml ofa 0.3 M olution 0.3 M solution hydroxide has been added), the pH at the mid-point of the titration, and the pH at the equivalence point (16 points).
of Hydrofluoric acid (Ka-6.6 x 10") solution is titrated with f NaOH. Draw a titration curve, labeling the initial pH (when no sodium 40. 100 ml...
A solution is prepared by dissolving 0.23 mol of formic acid and 0.27 mol of sodium formate in water sufficient to yield 1.00 L of solution. The addition of 0.05 mol of NaOH to this buffer solution causes the pH to increase slightly. The pH does not increase drastically because the NaOH reacts with the present in the buffer solution. The K, of formic acid is 1.8 x 10+ A formic acid B. sodium formate C water D. sodium E....