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At a particular temperature, Kp = 0.260 for the reaction
N2O4(g) 2NO2(g) |
volume of the container increased to 5.000 times the original. constant temperature calculate total pressure at equilibrium.
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BIO 131 Cuyahoga Community College Tools of Scientific Inquiry Lab Exercise
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Exercise 2: The Tools of Scientific Inquiry NAME_____________________Skill Check Worksheet Lab Section________________ Pre-Lab ActivitiesPart 1: Activity 1: Converting Metric UnitsConvert the following matric quantities:12 kg = ______ g73 L = ______ mL2___ kg = 4,000 g8___L = 6,000 mL35 L = _____ mL9______ g = 8 kg4______ mL = 9 L101.5 kg = ______ g50.5 L = _____ mL1112,000 g = _____ kg6____ kg = 15,000 g121.5 L = ______ mLIn each box, circle the number that represents greatest quantity: 1 kg 100 g 500 g 4 L 3260 mL 800 mL 2700 g 3 kg 3020 g 5200 mL 5 L 5090 mL Use greater than (>), less than (<) or equals (=) to compare the amounts.1.1 L __________ 500 mLa.>b.=c.<2.3 kg _______ 800 ga.>b.=c.<3.5,000 ml ______ 5 La.>b.=c.<4.7 kg _______ 7290 ga.>b.=c.<5.0.5 kg ________280 ga.>b.=c.<Part 1: Activity 2Match each of the items in the following list with its appropriate size in metric units. Since these items are extremely different in size, it is not really necessary to measure them to see the difference. The five items in the left column below are listed in size from smallest to largest. Match each of the items with the correct size from the right column. You may use your lecture textbook or other sources (such as the Internet) to help you correctly determine the sizes._____ Length of a bacterial cell a. 2.5 cm _____Diameter of a typical animal cell b. 600 cm_____Diameter of a human eye c. 2 mm_____ Height of an average human female d. 30 mm_____Length of a human small intestine e. 1.6 mPart 2: Presentation of Data in GraphsPart 2A: The Bar GraphYou can gather a lot of information from a histogram. Answer the following questions based on the histogram in Figure 1. (Prelab 2)One thing that you can determine is the number of times a particular “event” occurred. In this case, an “event” is a sea urchin that was counted. On this graph, what is the total number of events? (i.e. How many sea urchins were counted in total?) You can also use the graph to determine how many times a certain event occurs. In this case, what is the total number of events in the 40-44mm size range? (How many sea urchins are between 40-44 mm in diameter?) What is the range in events? (What is the range in size (the largest and smallest) of the urchins?)What is the title of the graph in Figure 1?What is the label of the x-axis in Figure 1?What is the label of the y-axis in Figure 1?Part 2B: The Line GraphDescribe any trends you see in Figure 2. How long does it take the algae (graphed in Figure 3) to reach its maximum height? Do you see any trend(s) to the data in Figure 3? Is the growth rate of the algae constant at all times? Fill in the following for Figure 3: “The effect of ________________________ on _____________________.” Part 3: What is a mollusc? List three well-known organisms that are molluscs. Describe the characteristics that define the body plan of these organisms. Describe the four substrates where marine mollusks are typically found living. Lab ActivitiesActivity 1. (https://seanet.stanford.edu/Molluscs#brunnea)Table 1: Mollusc Data: Individual Group and Class (10 groups in class)Common NameScientific Name# of specimens (group data)# of specimens(class data)Keyhole limpetFissurella volcano218Black Turban snailChlorostoma funebralis14150Brown Turban SnailChlorostoma brunnea1095PeriwinkleLittorina scutulata19175PeriwinkleLittorina keenae12100Green chitonCyanoplax hartwegii01WhelkAcanthinucella spirata08Brown Top SnailCalliostoma ligatum645WhelkNucella emarginata05WhelkNucella ostrina11Question 1) How many different species of molluscs were present in your group’s collection?Question 2) How did the species you had in your collection compare to species found in collections of the other groups? If there were differences, why do you think that was the case?Question 3) Are there any species that appear to be more highly represented than others? Why do you think that might be the case? Activity 2Table 2: Mollusc length measurements (millimeters) (Black Turban Snail)1523132322292324192416272819162427221830.0241412182630232823232423282224251623183128282223292717182314Question 1) Describe the distribution of sizes of the species of mollusc that you measured. Are all of the sizes evenly distributed? Or are certain sizes more highly represented? Why do you think this might be the case?Activity 3Table 3: Mollusc Length and Weight DataSampleLength (mm)Weight (grams)1141.382161.623181.804222.255232.316242.387252.478272.769292.9110303.221)Look at the trend line and its associated R-squared value. Does there appear to be a linear relationship between length of the shell and weight of the shell? Do you think that weight of the shell would be a good indication of the size of the organism? 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BIO 131 Cuyahoga Community College Tools of Scientific Inquiry Lab Exercise
Exercise 2: The Tools of Scientific Inquiry NAME_____________________Skill Check Worksheet ...
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Exercise 2: The Tools of Scientific Inquiry NAME_____________________Skill Check Worksheet Lab Section________________ Pre-Lab ActivitiesPart 1: Activity 1: Converting Metric UnitsConvert the following matric quantities:12 kg = ______ g73 L = ______ mL2___ kg = 4,000 g8___L = 6,000 mL35 L = _____ mL9______ g = 8 kg4______ mL = 9 L101.5 kg = ______ g50.5 L = _____ mL1112,000 g = _____ kg6____ kg = 15,000 g121.5 L = ______ mLIn each box, circle the number that represents greatest quantity: 1 kg 100 g 500 g 4 L 3260 mL 800 mL 2700 g 3 kg 3020 g 5200 mL 5 L 5090 mL Use greater than (>), less than (<) or equals (=) to compare the amounts.1.1 L __________ 500 mLa.>b.=c.<2.3 kg _______ 800 ga.>b.=c.<3.5,000 ml ______ 5 La.>b.=c.<4.7 kg _______ 7290 ga.>b.=c.<5.0.5 kg ________280 ga.>b.=c.<Part 1: Activity 2Match each of the items in the following list with its appropriate size in metric units. 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