record a thermogram. YOU CAN NOW MOVE ONTO THE STEPS TO RECORD AND DETERMINE THE CALORIMETER CONSTANT FOR EACH OF THE 4 PROVIDED CUPS. 1. Obtain two of the same cup types‚ in example two styrofoam cups‚ and a lid from your instructor or the lab stock room to serve as the calorimeter. Nest one cup inside the other to construct
Premium Laboratory equipment Temperature
a wide variety of plants. 4. Table 16.7 Uses of Seeds Plants: Angiosperms and Gymnosperms Uses of Plants Example Angiosperm/Gymnosperm Food Rice Angiosperm Beverage Tea Angiosperm Medicine Aloe Vera Gymnosperm Fibers Paper Gymnosperm Materials Wood Gymnosperm Dyes Colorado Fir Gymnosperm 5. Review the introduction to Lab Topic 15 plant diversity 1 and describe the major trends in the evolution of land plants. The major trend is leaning toward the sporophyte dominating the life cycle
Free Plant Pollen Pollination
Eric Bryan Period 4 Calorimetry Lab Theory: To most people heat and temperature are generally the same thing. But really in a scientific sense there is still a similarity between them but they are different concepts. Temperature is the measure of the average energy of molecular motion in a substance. Heat is the total energy of molecular motion in a substance. Temperature is not energy like heat is‚ it is just measure of it. Now there is also a difference between heat and thermal
Premium Heat Temperature Thermodynamics
Beverages Consumed by UPV Dormitory Residents While Studying A Study presented to: Prof. April Anne Aquino Division of Physical Sciences and Mathematics University of the Philippines Visayas In Partial Fulfilment of the Requirement in Statistics 197 (Market Research) By: Mary Grace Tacardon Joyalou Villaflor Newton Kate Dahuya Lizbelle Mariann Gonzaga Rodney Reyes Luduvico Gomez Jr. INRODUCTION Being a student in the University of the Philippines means a lot of stress‚ pressure
Premium Alcoholic beverage Kefir Beer
CHM130 Lab 6 Exploring Density Name A. Data Tables Place your completed Data Tables here Part IIIa (3 points) Volume of water in graduated cylinder (mL)10 mlMass of rubber stopper (g)11.15Volume of water and rubber stopper (mL)16.5 Part IIIb (6 points) Volume of water in graduated cylinder (mL)20Mass of iron nail (g)3.66Volume of water and iron nail (mL)20.5 Part IV (20 points) Type of Aluminum FoilMass (g)Length (cm)Width (cm)Volume (cm3)Thickness (cm)Regular.63g15 cm 10.02 cm.21 cm3.0014
Premium Density
UNIVERSITY OF CAPE COAST THE EFFECT OF TELEVISION ADVERTISEMENT OF ALCOHOLIC BEVERAGES ON CONSUMER BEHAVIOUR.BY AWUA JOSHUA KATE FENTENG LILY ASARE A PROJECT WORK SUBMITTED TO THE DEPARTMENT OF EDUCATIONAL FOUNDATIONS OF THE FACULTY OF EDUCATION‚ IN PARTIAL FULFILMENT OF THE REQUIREMENT FOR THE AWARD OF BACHELOR OF SCIENCE DEGREE IN PSYCHOLOGY. MAY‚ 2013. DECLARATIONCANDIDATES DECLARATION We hereby declare that this work is
Free Alcoholic beverage Alcohol Alcoholism
The purpose of the lab was to construct a graph of sugar content versus density for 5 sugar solutions and to determine the sugar content of the 5 beverages using graphical analysis. The hypothesis was that if a beverage has more sugar‚ then it will be more dense. The results of the lab included the densities of all the solutions and beverages‚ which was then graphed. Then‚ using the graph‚ the sugar content for the beverages was determined and a rank of the beverages was created. From lowest sugar
Premium Chemistry Water United States
Determining the accuracy of varieties of pipettes by weighing and finding the density of a liquid Abstract Different varieties of pipettes (P100‚ PR1000 pipettors and a serological pipette) along with a weighing balance was used in this investigation to check the density of an unknown liquid by first finding out what the liquid weighed and plotting a graph of the mass in grams against the volume of the liquid used in micro litres (µl) and finding the gradient of the graph (∆Y/∆X). Most of the
Premium Density Kilogram Water
6. Steps 3-5 were repeated and the results were also tabulated as L and N. 7. A graph of L vs. N was plotted in order to fine the gradient (G). 8. Using the formula G=mρA ‚ the value of m as the mass of 1 paperclip was found where the density of water (ρ) is 1.0gcm-3. N(number of paperclips) | L (cm) | Average | | L1 | L2 | | 0 | 7.6 | 7.6 | 7.6 | 1 | 8.3 | 8.2 | 8.3 | 2 | 8.3 | 8.7 | 8.5 | 3 | 9.3 | 9.3 | 9.3 | 4 | 9.8 | 9.9 | 9.9 | 5 | 10.3 | 10.3 | 10.3 | 6 | 10
Premium
ASTR 101 Size of the Solar System Name _______ Section __ Overview · Become familiar with the scale of the planets vs. their distances. · Get an overview of the solar system. · 50 points are possible Introduction It is easy to flip to the index of an astronomy textbook to discover that‚ say‚ the Sun lies 150 million kilometers away from Earth. It is far more difficult (if not impossible)‚ however‚ to picture this distance in our mind. In this exercise
Premium Solar System Planet Jupiter