to measure the material in the gas phase and to see how the ideal gas experiment could apply to the physical. In this the material we used was, a sip-lock plastic bag, a large plastic beaker, thermometry, dry ice, water, and butane lighter. Introduction In this lab, the experiment focused on the relationship between the temperature and pressure of an ideal gas that was dry ice inside the closed container. Therefore, the volume remains constant because the ideal gas was in a closed container. Experiment
Words: 1209 - Pages: 5
Gases and Atmospheric Chemistry: States of Matter and Gas Laws States of Matter: |State |Properties |Example | |Solid |Definite shape and volume | | | |Virtually incompressible |
Words: 889 - Pages: 4
What makes the ball curve: Soccer players can make the ball curve by applying a Force, kicking, to the ball that is not in the center of the ball itself. When the ball is struck on the side by a player the ball spins while it is moving forward. In the case of the picture below, the soccer ball was struck on the right side of the ball and is spinning counter-clockwise. What causes the ball to actually curve in the air is a difference in the pressures on either side of the soccer ball. On the left
Words: 718 - Pages: 3
one end. A gas was trapped in the sealed end of the tube and unstable amounts of mercury were added to the J-shaped tube to vary the pressure of the system. Boyle scientifically varied the pressure and measured the volume of the gas. These measurements were performed using a fixed amount of gas and a constant temperature. In this way Boyle was able to examine the pressure-volume relationship without complications from other factors such as changes in temperature or amount of gas. Boyle’s
Words: 442 - Pages: 2
lts and Discussion The heart of a laboratory report is the presentation of the results and the discussion of those results. In some formats, "Results" and "Discussion" appear as separate sections. However, P.B. Medawar [1979] makes a strong case that the two should appear together, particularly when you have many results to present (otherwise, the audience is faced with a "dump" of information that is impossible to synthesize). Much here depends upon your experiment and the purpose of your laboratory
Words: 562 - Pages: 3
experiment, the magnesium metal will be reacted with concentrated hydrochloric acid to produce hydrogen gas according to the following chemical equation: Mg (sol) + x HCl (aq) → MgCl x (aq) + x H2 (gas) 2 The hydrogen gas produced will be collected, its volume measured, and the mass in grams calculated using the ideal gas law: PV = nRT When using this equation, the units of the gas constant (R) must be consistent with the units used for the other quantities in the equation. The Handbook
Words: 1279 - Pages: 6
------------------------------------------------- My ------------------------------------------------- Portfolio ------------------------------------------------- Submitted by: ------------------------------------------------- Burlas,Jolina R. III-Dao ------------------------------------------------- Submitted to: ------------------------------------------------- Waperi,Evelyn P. ------------------------------------------------- -------------------------------------------------
Words: 690 - Pages: 3
exist as a gas at ordinary temperatures. The characteristics of gases include: assuming the volume/shape of their containers, most compressible of the states of matter, will mix evenly/completely when confined in the same container, lower densities than liquids and solids. 5.2: Pressure of A Gas Gas molecules are constantly in motion, causing them to exert pressure with the surfaces they come in contact with. Pressure is known as the most readily measurable properties of a gas. SI Units
Words: 2516 - Pages: 11
MANUAL ENGLISH UNIT PROBLEMS CHAPTER 3 SONNTAG • BORGNAKKE • VAN WYLEN FUNDAMENTALS of Thermodynamics Sixth Edition Sonntag, Borgnakke and Wylen CHAPTER 3 SUBSECTION Concept-Study Guide Problems Phase diagrams General Tables Ideal Gas Compressibility Factor Review Problems PROB NO. 128-132 133-134 135-145 146-148 149, 157, 158 150-156 Correspondence table The correspondence between the problem set in this sixth edition versus the problem set in the 5'th edition text. Problems
Words: 3608 - Pages: 15
73, 75 & 82. Gas Properties 1. 2. 3. 4. Gases are highly compressible where liquids and solids are not. Gases occupy full volume of the container. Gases always form homogenous mixtures. In gases, there is spaces between gaseous molecules. 5. 1 Pressure Pressure = Force - N Area – m2 in Pascals (SI units) Pressure is measured using pressure gauges or diaphragm gauges. Atmospheric Pressure at sea level is 1 atm = 760 mm = 760 torr = 1.01 x 105 Pascals 5.2 The Gas Laws of Boyle, Charles
Words: 1074 - Pages: 5
