Mole table and balanced equation please

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Air oxidation procedure: Transfer approximately one half of your recovered benzaldehyde to a weighed, clean, dry watch glass or petri dish. Determine the mass of benzaldehyde you transferred. Place the watch glass or petri dish on an unfolded piece of filter paper that is wider than the dish, and cover the dish with another petri dish. Use your marker to label the cover with your name, CH252, and the date. Let this arrangement stand in your fume hood until the benzaldehyde turns into a white solid (the process will probably not be complete until the next lab period). -with solvent You are performing the following reaction: O H 02 petri dish-37.919 38.99 + dried = 1.089 O || OH 3434 40.039 Alternative oxidation procedure: If time does not permit air oxidation of benzaldehyde, mix 10 mL of 5% NaOH(aq) and 15 mL of 3% H₂O2 (aq) in a 125-mL Erlenmeyer flask, and warm the contents of the flask to ~65-70 °C. Add 1 g of benzaldehyde to the flask, and continue to warm the flask for 15 min (Note: Swirl the flask frequently). Add 5 mL of 3% H₂O2 to the flask, and continue to warm the flask for 10 min. Allow the contents of the flask to cool to room temperature, acidify with 5% HCl(aq), and collect the crystals by suction filtration. The chemical equation for the oxidation reaction will look somewhat different than the one shown above. -What would a mole table in your notebook look like for this reaction (remember to balance the equation)? Use a stoichiometric amount of oxygen for the amount used.