You are a chemist that has been assigned to prepare a NaOH solution, and you are...

1. A reaction requires a 100 mL NaOH solution with a pH = 11.00. The lab...

1. A reaction requires a 100 mL NaOH solution with a pH = 11.00. The lab has a stock solution of 0.10 M NaOH. a, Calculate the concentration of hydronium - ion, H3O+ in the target solution. b, Calculate the concentration of hydroxide - ion, OH- in the target solution. c, Calculate the concentration of sodium hydroxide, the target solution. d, Calculate the volume (in milliliters) of the stock solution needed to prepare the target solution. 2. Which of the...

A chemist must prepare 275.mL of 1.00 M aqueous sodium chloride NaCl working solution. He'll do...

A chemist must prepare 275.mL of 1.00 M aqueous sodium chloride NaCl working solution. He'll do this by pouring out some 4.71molL aqueous sodium chloride stock solution into a graduated cylinder and diluting it with distilled water. Calculate the volume in mL of the sodium chloride stock solution that the chemist should pour out. Round your answer to 3 significant digits.

Procedure Experiment 1: Standardize an NaOH Solution Using Benzoic Acid as Primary Standard Part 1: Prepare...

Procedure Experiment 1: Standardize an NaOH Solution Using Benzoic Acid as Primary Standard Part 1: Prepare the NaOH Solution Take a 250 mL volumetric flask from the Containers shelf and a balance from the Instruments shelf and place them on the workbench. Zero the mass of the volumetric flask on the balance. Take sodium hydroxide from the Materials shelf and add 1 g to the flask. Record the mass from the balance display. Place the volumetric flask on the workbench....

A sodium hydroxide solution that contains 59.2 grams of NaOH per L of solution has a...

A sodium hydroxide solution that contains 59.2 grams of NaOH per L of solution has a density of 1.12 g/mL. Calculate the molality of the NaOH in this solution. Record your answer to 2 decimal spaces.

A sodium hydroxide solution is made by mixing 13.64 g NaOH with 100 g of water....

A sodium hydroxide solution is made by mixing 13.64 g NaOH with 100 g of water. The resulting solution has a density of 1.131 g/mL. a. What is the molarity of this solution? b. What is the molality of the solution? c. What is the mass fraction of NaOH in the solution? d. What is the mole fraction of NaOH in the solution?

A concentrated sodium hydroxide is 50.5% NaOH by mass (100% *mass of solute/mass of solution) and...

A concentrated sodium hydroxide is 50.5% NaOH by mass (100% *mass of solute/mass of solution) and has a density of 1.53 g/mL at 25 degrees celcius. what is the molality of NaOH?

Your instructor has asked you to prepare 2.00 L of 0.169 M NaOH from a stock...

Your instructor has asked you to prepare 2.00 L of 0.169 M NaOH from a stock solution of 53.4 (+/- 0.4) wt % NaOH with a density of 1.52 (+/- 0.01) g/mL. (a) How many mL of stock solution will you need? (b) If the uncertainty of delivering NaOH is +/- 0.10 mL, calculate the absolute uncertainty in the molarity (0.169 M). Assume negligible uncertainty in the molecular weight of NaOH and in the final volume, 2.00 L.

The NaOH used in this lab should have been 0.1M, since you were to make it...

The NaOH used in this lab should have been 0.1M, since you were to make it as such (see Step 15 in lab document). Compare your standardized average molarity of NaOH in this lab to 0.1M. How do the values compare? How close was your NaOH dilution to actually being 0.1M NaOH? Calculate your percent error against the average standardized value from this lab. (You must show all work to receive credit.) step 15- Prepare an aliquot (fancy chemical term...

Acid-Base Behavior In addition to following the general safety rules, chemicals need to be handled properly....

Acid-Base Behavior In addition to following the general safety rules, chemicals need to be handled properly. In particular, two very important classes of compounds called acids and bases require special attention. These compounds are commonly used reagents in the laboratory; therefore, understanding their proper disposal is beneficial. Physical differences between acids and bases can be detected by the some of the five senses, including taste and touch. Acids have a sour or tart taste and can produce a stinging sensation...

Experiment 1: Titrations With Hot Taco Sauce and Ketchup Materials: (2) 250 mL Beakers 100 mL...

Experiment 1: Titrations With Hot Taco Sauce and Ketchup Materials: (2) 250 mL Beakers 100 mL Beaker (waste beaker) 30 mL Syringe Syringe stopcock 100 mL Graduated cylinder Funnel Stir rod Ring stand Ring Clamp pH meter Scale 20 mL 0.1M NaOH 2 Ketchup packets 2 Hot sauce packets *90 mL Distilled water *Scissors *Computer Access *Access to a Graphing Software *Procedure for creating this solution provided in the "Before You Begin..." section (located at the beginning of the manual)....