BIO201 Lab 4

1. Solubility Test Table 1. Results for the solubility test. OBSERVATION* INFERENCE SAMPLE Ethyl acetate ** Нехаne Methanol Water Coconut oil Vitamin E Beef fat Miscible (soluble) or immiscible (insoluble) ** polar or nonpolar Sudan IV Test Table 2. Results for Sudan IV test. OBSERVATION* INFERENCE SAMPLE Нехаne Ethyl acetate Methanol Water ** Coconut oil Vitamin E Beef fat Homogeneous or heterogeneous mixture ** polar or nonpolar

Do the dilutions for the given concentration.

Can you plz help me and thankyou so much!

Solve correctly please. (Gpt/Ai wrong answer not allowed)

Pre-lab question #8: Suppose you were dissolving a metal such as zinc with hydrochloric acid. How would the particle size of the zinc affect the rate of its dissolution? As the particle size of the zinc increases, the rate of dissolution AA (decreases/increases).

Need help understanding how to do these problems.  Can you show me step by step how to do a couple of these?

Materials Needed solid I2 solid CUSO4-5H20 food dye solid (NH4)2SO4 heavy metals waste container halogenated waste container non-halogenated waste container semi-micro test tubes and rack regular test tubes and rack squash pipettes acetone cyclohexane propan-2-ol Method Part A: Solubility of ionic and molecular solids 1. Place a small amount (about the size of 1 grain of rice, see picture) of copper sulfate into each of three DRY semi-micro test tubes. Add 20 drops of water to the first test tube and gently flick the test tube with your finger to ensure mixing. 2. Repeat step 1 using acetone in place of water as the solvent in the second test tube. 3. Repeat step 2 replacing acetone with cyclohexane in the third test tube. Hold the test tubes against a white background to compare the solubility of copper sulfate in the three solvents and record your results. Discard these mixtures into the heavy metals waste container in the fume cupboard. Once these test tubes have been emptied you…

Chapter4-Three Major Classes of Chemical Reactions i Saved 11 Enter your answer in the provided box. A sample of concentrated nitric acid has a density of 1.41 g/mL and contains 70.0%HNO, by mass. What mass of HNO3 is present per liter of solution? Mc Graw Hill Type here to search

(D Page view A Read aloud V Draw A. Solubility and Salt Formation (Dissociation & Neutralization) Obtain 4 clean test tubes. Test tube 1 - Place approximately 5mL of distilled water and 1mL of acetic acid Test tube 2 - Place approximately 5mL of distilled water and ImL of oleic acid Test tube 3 - Place approximately 5mL of IM NaOH and ImL of acetic acid Test tube 4 - Place approximately 5mL of IM NAOH and ImL of oleic acid Make a prediction about each reaction in the table below. Neutralization with NaOH Dissociation in Water Compound (draw the structure AND name the salt formed) (yes/no) Acetic acid Yes CH;COOH Oleic acid No CH:(CH2)-CH-CH(CH2) CO2H hp

I need help calculating the initial concentrations please.

LIGHT SOURCE A C Match each type of mixture to its correct letter. Suspension [ Choose ] Solution [ Choose ] Colloid [Choose]

(Choose one answer for each) ____________ is a type of colloid that is formed when a liquid is dispersed in a gas gel emulsion sol aerosol foam Which of the following statements describes the process of coagulation? The dispersed phase of an association colloid aggregrates and forms a micelle. The dispersed phase of an association colloid aggregrates and forms a hydrophobic colloid. The dispersed phase of an association colloid aggregrates and forms a hyrdophillic colloid. The continous phase of a colloid aggregates and separates from the dispersed phase. The dispersed phase of a colloid aggregrates and separates from the continous phase. ____________ forces is/are responsible for capillary action, a property of liquids?  surface tension of the liquid attractive forces between the liquid and the capillary material and surface tension of the liquid viscosity of the liquid viscosity of the liquid and surface tension of the liquid

Can you help me answer this questions, that question is related to the chart Experimental observation. Low conc solution ____ unknown.    high conc solution____

Procedure A: Molarity (M=g/MM/L) Step 1. Place one-eighth of a teaspoon (this weighs approximately 0.5 grams) of NaCl (table salt) in the graduated cylinder provided. Then add distilled water to that graduated cylinder until the level of the water reaches 45.00 mL. Mix thoroughly about 1 minute. Pour solution into a somewhat clear cup. Remember what this looks like for Procedure B. Questions: Is this a saturated solution? Why or why not? Take a picture and insert a picture (compress your image) of your solution here. Save this solution for Step 2. Calculations: Determine the Molarity of this solution using the formula M = g/MM/L. You know the grams (one-eighth of a teaspoon weighs approximately 0.5 grams), look up the Molar Mass of NaCl, and convert your mL to L to solve the problem.) Show your calculations for Molarity here. C % 31 D < hp & * ✔

50 mL of stock solution were taken and added to flask. Then 50 mL of Di water were added to the flask. This is solution 1. Then 50mL of solution 1 were taken and added to a flask and 50 mL of Di water were added to the flask. This is solution 2. Then 50mL of solution 2 were taken and added to a flask and 50 mL of Di water were added to the flask. This is solution 3. Then 50mL of solution 3 were taken and added to a flask and 50 mL of Di water were added to the flask. This is solution 4. Find the concetrations of each solution.  Information of stock solution - molar mass- 534.3g/mole 0.587g in MilliQ

Which of the following are first aid measures for glacial acetic acid? Select one: a. If swallowed, rinse mouth with water (unless the affected person is unconscious). Consult a physician.  b. If in contact with the eyes, flush eyes with water for 15 minutes. Consult a physician and continue to wash eyes with water during transport to the hospital. c. If in contact with the skin, remove contaminated clothing and wash affected area with soap and water for at least 15 minutes. Consult a physician.  d. All options are correct. e. If inhaled, move the affected person to fresh air and give artificial respiration if they are not breathing. Consult a physician.

100 mL of 0.5 M H2SO4 solution is needed.  The stock solution is 6 M.  How many milliliters of stock solution is needed to produce this solution?

Part III: Determination of Saturated Solutions Molarity (saturated) Tube # Temperature (°C) Molarity (dilute) Absorbance 2 0.6 0.157 20.1 0.291 4 37.6 0.351 50.1 0.500 6. 70.9 0.714 show calculation for Tube #2, Molarity (dilute) (use graph equation): show calculation for Tube #2, Molarity (saturated): 1. Is the relationship between solubility and temperature direct or inverse? Explain.

Data Table 1 Enter the calculated molarity and measured conductivity values in the table. Data Table 1: Experimental Data Sodium Total Sodium Chloride Standard Chloride Volume Concentration (M or Conductivity (µS) (g) (mL) mol/L) Blank 100.00 8.965 A 0.0059 100.00 В 0.0531 100.00 0.1029 100.00

Cell membranes are semipermeable, and osmosis is an ongoing process in the body. Differences in osmotic pressure inside and outside a red blood cell can result in crenation (shriveling) or hemolysis (rupture). The diagram shows three solutions: an isotonic solution, a hypertonic solution, and a hypotonic solution. Place the appropriate red blood cell in each solution. isotonic solution hypertonic solution hypotonic solution Answer Bank

Examine the solubility chart below and answer questions 5-12 300 Sugar 260 KNO, 220 180 NANO 140 Nabr 100 60 KCL Naci 20 Ce (So) 20 40 60 100 Temperature ("C) 5. Which ionic solid is most soluble in water at 0°C? A. sugar (C12H22011) B. KNO3 C. NANO3 D. NaBr E. Ce:(SO4)3 (oH 6 00t ad anyos ) Aaygnos

If you were stranded in an island, you would not drink sea water to quench your thirst because A. One cup of seawater contains enough sodium to poison you B. Seawater is isotonic to your body fluids and you will absorb too much water C. Seawater is hypotonic to your body tissues and drinking it will cause you to lose water (dehydration) D. The salt in seawater causes hypertension and you could abruptly die of stroke E. Seawater contains toxic levels of iodine

For each of the following pairs of solute and solvent, predict whether the solute would be soluble or insoluble. After making your predictions, you can check your answers by looking up the compounds in The Merck Index or the CRC Handbook of Chemistry and Physics. Generally, The Merck Index is the easier reference book to use. If the substance has a solubility greater than 40 mg/mL, you may conclude that it is soluble.