Chemistry
10th Edition
ISBN: 9781305957404
Author: Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher: Cengage Learning
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"How many mL of a 0.215 M aqueous solution can be prepared from 38.1 g of urea, CO(NH2)2? Make sure to show your work clearly and to the correct number of significant figures". *Please show solution one step at a time, thank you in advance!
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- ! T 1 A Z The names and chemical formulae of some chemical compounds are written in the first two columns of the table below. Each compound is soluble in water. Imagine that a few tenths of a mole of each compound is dissolved in a liter of water. Then, write down in the third column of the table the chemical formula of the major chemical species that will be present in this solution. For example, you know water itself will be present, so you can begin each list with the chemical formula for water (H₂O). -6 Note: "major" chemical species are those present in concentrations greater than 10 mol/L. 89 FI compound propylene glycol Explanation ammonium lodide @ 2 glycerol W S X command Check 30: F2 # 3 formula C,H, (OH)₂ C₂H₂O, NH₂L 20 E E D 8.0 F3 C $ 4 R major species present when dissolved in water F a F4 % 5 V 0 0 T I F5 G 6 B F6 Y 7° H X & 7 00 stv N K F7 U 0.0.... 3 J © 2023 McGraw Hill LLC. All Rights Reserved. Terms of Use | Privacy Center | A- alt ✓ A A C 8 DII FB 1 M ( 9 K F9 O <…arrow_forwardI need to calculate the Molarity of the solution. I am attaching what I thought I needed to do but the homework is saying I am incorrect. Please help me out, I have a test on Wednesday! If you can also provide another example, much appreciated. 37.6 mgNaCl in 131.8 mL of solution 37.6 mg = 0.0376 g 0.0376 g / 58.443 g * 1 mole = 0.0006 moles 131.8 mL = .1318 L 0.006 moles / .1318 L = 0.00455 m/L = NOT CORRECTarrow_forward< 11 of 19 I Review Constants | Periodic Table Part B A student placed 16.0 g of glucose (C6H12O6) in a volumetric flask, added enough water to dissolve the glucose by swirling, then carefully added additional water until the 100. mL mark on the neck of the flask was reached. The flask was then shaken until the solution was uniform. A 45.0 mL sample of this glucose solution was diluted to 0.500 L. How many grams of glucose are in 100. mL of the final solution? Express your answer to three significant figures and include the appropriate units. • View Available Hint(s) ? Value Unitsarrow_forward
- Do not use chatgpt.arrow_forwardA stock solution of Na2B having a concentration of 0.1486 M is used to prepare four calibration standards, A-D in the table below, by diluting the indicated volume of this solution to a total volume of 50.00 mL. Complete the table by entering the molarity of B2- for each standard solution. Show an illustrative calculation for tube ‘A’. Use the dilution formula and express each result to one more digit than allowed by applying the rules of significant figures.arrow_forwardGive Detailed Solution with explanation (don't give Handwritten answerarrow_forward
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- Please help I'm not sure how to solve these. A solution is prepared by dissolving 20g of NaCl (f.w.= 58.44 g mol^-1), a nonvolatile solute, in enough water (m.w. = 18.02 g mol^-1) to result in exactly 1 L of solution at 25 C. The density of the solution is 1 g mL ^-1. How do you calculate freezing point of the solution as well as vapor pressure and the osmotic pressure? I understand boiling point.arrow_forwardps://openvellum.ecollege.com/course.html?courseld=16594544&OpenVellumHMAC=e0a02f77f7d1 回☆ 21 v Part G Calculate (OH\for a solution formed by adding 4.10 mL of 0.100 M KOH to 10.0 mL of 6.3 x 102M C Ca(OH)2. Express your answer using two significant figures. [OH]]= 0.33 %3D Marrow_forwardThe solution is in steps on paperarrow_forward
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