REVIEW SHEET EXERCISE 1 Cell Transport Mechanisms and Permeability Simple Diffusion The following refer to Activity 1: Simulating Dialysis (Simple Diffusion). Which solute(s) were able to pass through the 20 MWCO membrane? NONE 1. According to your results‚ which solute had the highest molecular weight? Albumin 2. Which solute displayed the highest rate of diffusion through the 200 MWCO membrane? Na+Cl 3. Using the data from Chart 1‚ explain the relationship between the
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Print Form R E V I E W version 8 S H E E T EXERCISE 39 B NAME ____________________________________ LAB TIME/DATE ________________________ Chemical and Physical Processes of Digestion: Computer Simulation Carbohydrate Digestion The following questions refer to Activity 1: Assessing Starch Digestion by Salivary Amylase. 1. At what pH did you see the highest activity of salivary amylase? 7.0 Why? because that is when the salivary is most effective and it breaks down carbohydrates
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Exercise 7.1 ANSWERING THE OPPOSITION Answering the opposition EN1420 Jorge Angeles Answering the opposition What was your initial reaction to Limbaugh’s claim that‚ “feminism was established so that unattractive women could have easier access to the mainstream of society? My first reaction was that he went a little bit too far with that statement‚ I think unattractive women and attractive women could have or not have an easier access to the mainstream of society as
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REVIEW SHEET EXERCISE 5 Cardiovascular Dynamics NAME: LAB TIME/DATE: Vessel Resistance The following questions refer to Activity 1: Studying the Effect of Flow Tube Radius on Fluid Flow. 1. At which radius was the fluid flow rate the highest? 6.0 mm 2. What was the flow rate at this radius? 1017.2 mmHg 3. Describe the relationship between flow rate and radius size. The relationship between the flow rate and the radius size is direct with the formula flow rate=radius to the fourth
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dividing the distance between R1 and R2 (0.1 m) by the time it took for the action potential to travel from R1 to R2. Enter the conduction velocity in the field below and then click Submit to display your results in the grid. You answered: 50 m/sec 7. Note the difference in time between the action potential recorded at R1 and the action potential recorded at R2. Convert the time from milliseconds to seconds‚ enter the time (in seconds) in the field below‚ and then click Submit to display your results
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Physioex 9.0 Review Sheet Exercise 1 Cell Transport Mechanisms and Permeability Name: Gayane koshkakaryan Lab Time/Date: Friday 8am Activity 1 Simulating Dialysis (Simple Diffusion) 1. Describe two variables that affect the rate of diffusion. a. Molecular weight b. Solute concentration 2. Why do you think the urea was not able to diffuse through the 20 MWCO membrane? How well did the results compare with your prediction? a. Urea was unable to diffuse through the 20MWCO membrane
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I am disappointed with the SFSU bookstore. I went to the bookstore to buy a Scantron sheet for my final exam in Spring 2016. Whether I went there in the morning or at noon‚ there was always a long line in front of the checkout counter. I spent at least one hour to buy a Scantron sheet. I really hate to waste so much time in line. There are two checkout counters on the upper floor‚ I couldn’t understand why they just used only one counter. I suggest you buy a Scantron earlier. Moreover‚ I am not satisfied
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smaller mass than a proton (2) +1 and the same mass as a proton (4) +1 and a smaller mass than a proton 7 The atomic number of an atom is always equal to the number of its (1) protons‚ only (3) protons plus neutrons (2) neutrons‚ only (4) protons plus electrons 8 Which subatomic particle has no charge? (1) proton (2) neutron (3) the nucleus (4)electron 9 The atomic mass of an element is calculated using the (1) atomic number and the ratios of its naturally occurring
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Dynamics Test Review Dynamics: The study of forces that cause motion Types of Forces: can accelerate‚ deform‚ rotate measured in Newtons (N). Force of Gravity: force of attraction between all matter Force of Friction: force that resists relative motion of two surfaes. Always parallel to surface in contact Normal force: force of contact that exists between two surfaces Applied Force: the push or pull Tension Force: the force of a rope or a chain (can only pull) Air resistance: caused by a
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CARBON 6 9 ( 2 0 1 4 ) 6 3 8 –6 4 0 Available at www.sciencedirect.com ScienceDirect journal homepage: www.elsevier.com/locate/carbon Letter to the Editor Carbon nanodots with strong nonlinear optical response Dezhi Tan a‚ Yuya Yamada b‚ Shifeng Zhou c‚ Yasuhiko Shimotsuma b‚ Kiyotaka Miura b‚ Jianrong Qiu a‚c‚* a State Key Laboratory of Silicon Materials‚ Department of Materials Science and Engineering‚ Zhejiang University‚ Hangzhou‚ Zhejiang 310027‚ PR China b Department of Material Chemistry
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