Thursday, January 2, 2020
Viscosity Lab Essay - 721 Words
Viscosity Science Lab Purpose: To determine of changing the viscosity will affect the time it takes for a marble to flow through a liquid. Hypothesis: If a marble is dropped into dish soap and corn syrup, than I predict that the marble in the dish soap will travel faster than the marble in the corn syrup because I know that the viscosity of the corn syrup is thicker than then the viscosity of the dish soap. Also, the particles in the corn syrup are more compact than those in the dish soap. This makes the marble sink faster in the dish soap than the corn syrup. Apparatus: * 2 identical marbles * 250 Graduated Cylinders of 250mL * 250mL of dish soap * 250mL of corn syrup * 1 timer/stopwatch Procedure: 1.â⬠¦show more contentâ⬠¦It is very difficult for large particles to move past each other unlike small, tiny particles, like those in the dish soap. The particles in the dish soap are very small and can move more freely and quickly. In the dish soap, the particles are very small and can move past each other easily when compared to the particles in the corn syrup. Another reason also contributed to the result of this experiment. Attraction. Some types of particles tend to attract more than others and that is exactly what happened in the corn syrup. The particles in the corn syrup attracted more than the dish soap. The large particles in the corn syrup held tightly to each other, that when the marble fell in that it made it hard for the marble to pass through more than one particle at a time. IN the dish soap, the particles did not attract as much as the corn syrup which let the marble move easily and quickly through the liquid. The strength of attraction as well as the particle size is important in determining a fluidââ¬â¢s viscosity. Application: This viscosity experiment can be used in real-life when making sun-tan lotion as well as other cosmetic products. It is important for the lotion to be viscous because the lotion could not be applied and spread around the body if the cream was not viscous enough to suit its use. It would drip all over you! It wouldnââ¬â¢t dry or stay in one place. Many well-known businesses hire highly educated scientists to calculate the right viscosity level and if it isShow MoreRelatedLab Report On Viscosity : Newtonian Vs. Non Newtonian Fluids1722 Words à |à 7 Pages Laboratory Report 3 Viscosity: Newtonian vs. Non-Newtonian Fluids By Jennifer Blanchard Olivia George Todd Lynn Chantz Yanagida ENGR 3070L CRN: 47426 27 September 2017 Jacqueline H. Smith Objectives The objectives of this laboratory were to design an experiment by coming up with a test matrix that will find the viscosity of three different fluids, to actually go about finding the viscosity of those three fluids (the fluids being motor oil, glycerin, and lotion diluted toRead MoreWhite Before Your Eyes Experiment1425 Words à |à 6 PagesColour change (black) - Higher viscosity - Lustrous - Translucent - Lustrous - Lower viscosity - White - White - Higher viscosity - Lustrous Sugar - Crystalline - White - Lustrous - Hard - Colour change (orange) - Lustrous - Did not dissolve - Did not dissolve - Lustrous - White - White - Did not dissolve - Lustrous Baking Soda - White - Non-lustrous - Soft - Colour change (Orange) - Less viscosity - Lustrous - Carbon dioxide bubbles released (fizzed) - Lower viscosity - Translucent - LustrousRead MoreViscosity of Liquids Lap Report1815 Words à |à 8 PagesExperiment 1: Viscosity of Liquids Victoria Kulczak Lab Partners: Laina Maines Heidi Osterman Date of Lab: 2/21/11 Due Date: 2/28/11 Abstract: The goal of this experiment was to determine the viscosity of given liquids. Two different methods were employed, the first measures time of flow of several methanol-water solutions, from point A to point B. The second method involves dropping a foreign object, in this case a sphere, into a cylinder of glycerol and measuring the time it takes for it toRead MoreThe Importance Of Motivation And Features For Microfluidic And Lab On A Chip 11419 Words à |à 6 Pages Electrical Engineering EE312 - Instrumentation Microcontrollers Case Study - Microfluidics ZHENG Weihao 201419390 30th April, 2015 Report Declaration of Originality Contents Introduction 1 Motivation and features for Microfluidic and Lab-on-a-chip 1 Physical background and principle of operation 2 Two examples of Microfluidics technology 4 Microfluidics technology combined with microcontrollers 4 Two commercially available systems of Microfluidics technology 4 Future development ofRead MoreTurbulent Flow Trial in Pipe Flow Experiment1934 Words à |à 8 PagesFor experiment 100 (pipe flow) there were some operational errors that took place during the lab period. There was one accident that involved the safety officer and the cross trainer that was there for the first lab period. Both the cross trainer and the safety officer were near the viscometer as they were both operating it. When the cross trainer finished utilizing the suction bulb, he was instructed by the team leader to begin recoding the density measurements. The cross trainer reached into theRead MoreEngineering Essay1377 Words à |à 6 PagesSIMULATION (ECI 146) CRN 29727; 4 units INSTRUCTOR: Fabià ¡n A. Bombardelli (fabombardelli@ucdavis.edu, fabianbombardelli2@gmail.com, bmbrdll@yahoo.com) OFFICE: 3105, Ghausi Hall Class: Tuesdays and Thursdays-12:10 PM to 1:30 PM (Olson 118) Computer lab: Fridays-1:10 PM to 2:00 PM (Academic Surge 1044) READER: Mr. Kaveh Zamani (kzamani@ucdavis.edu) TEACHING ASSISTANT: Ms. Kate Hewett (kmhewett@ucdavis.edu) COMPUTER PROBLEM 1: Solution of the Colebrook-White equation via three different methods.Read MoreFriction Loss Along Pipe2625 Words à |à 11 Pages32.0%, 27.0% and 30.0% whereby the differences are not major and in the acceptable range. There are few factors in affecting the head loss which are flow rate, inner diameter of the pipe, roughness of the pipe wall, corrosion and scale deposits, viscosity of the liquid, fittings and also straightness of the pipe. There are existence of both human errors, parallax errors and environmental effect but there are always error counters to be taken place to increase the accuracy of the results. Read MoreThe Effect Of Velocity On A Flat Plate Boundary Layer2998 Words à |à 12 Pagesstatic and total pressures is the dynamic pressure. Theory: The boundary layer is defined as a thin layer of any fluid adjacent to the solid surface it surrounds. The characteristics of a boundary layer are basically what define the effects of viscosity. The velocity of the boundary layer starts from a value of zero at the solid surface and increases until it reaches a maximum which happens to be the free stream velocity. In other words, theoretically speaking the boundary layer is infinite, butRead MoreViscous Losses in Pipes1466 Words à |à 6 PagesFluids Lab Viscous Losses in Pipes Objectives: Compare the flow rate/pressure drop characteristics for flow in pipes in the laminar and turbulent regions. Apparatus: The experiment is conducted with the help of a Manometer, with which the pressure drop between two gauge points can be measured. For small pressure differences the water (oil) / air manometer is used, whereas for larger pressure differences the mercury / water (oil) manometer is used. The flow rate of the water is measured inRead MoreOsbourne Reynolds Demonstration2149 Words à |à 9 Pagesis derived from the below equation, Where, Re = Reynoldââ¬â¢s Number à = density of fluid v = velocity of fluid L = length of the flow field à ¼ = dynamic viscosity of the fluid If the kinematic viscosity is known, then the equation can be simplified into, Re= (U x D)/V Where, U = mean velocity (ms-1) D = diameter of pipe (m) V = kinematic viscosity (m2s-1) The formula can be utilized to derive U where itââ¬â¢s defined as U = Q/A U = mean velocity (ms-1) Q = flow rate (m3s-1) A = cross sectional area
Subscribe to:
Post Comments (Atom)
No comments:
Post a Comment
Note: Only a member of this blog may post a comment.