Thermal Expansivity by Dilatometry and Pycnometry

Slides:

Advertisements

Similar presentations

Air Conditioners and Heaters

Advertisements

Heat Capacity Ratios of Gases

Chapter 16 Section 1 Kinetic Theory.

Highlights of Objective 1 Highlights of Objective 1 l The use of tools and equipment included in the middle school TEKS is part of this objective. l Students.

Manual Set-Up for Density by Hydrometer Method ASTM D1298, D287, D6822 and IP160 Feb

Safety in the Lab is ALWAYS important.. In the following situation, which course of action is best: A student is heating water in a beaker on a hotplate.

CSUS Department of Chemistry

If you have LOTS of sample, you can determine the boiling point by distilling the sample. This provides the b.p. AND it cleans up the sample. However,

Specific latent heat and radiation What is specific latent heat????? This is the energy absorbed or released when a substance changes state or phase.

CHEMISTRY 1105 Determination of Absolute Zero using Vernier Equipment.

Exercise F2 Recrystallization and Vacuum Filtration Organic Chemistry Lab I Fall 2009 Dr. Milkevitch September 21 & 23, 2009.

6.9AB: Thermal Energy Force, Motion, and Energy 1

Interactions in the Human Body Notes and Lab. Your Task Design and test a model of a negative feedback system to maintain the temperature of water in.

Thermal Pollution and Its Effect on Dissolved Oxygen Lab

LAB: Specific Heat of a Metal. Prelab question: MetalSpecific Heat (J/g ºC) Aluminum0.91 Iron0.46 Lead0.13 Silver0.23 Tin0.21 Titanium0.54 Zinc0.39 A.

AIR QUANTITY REQUIRED TO TRANSFER HEAT IN A FORCED AIR SYSTEM In all four mechanical systems considered, the transfer of heat, either by taking it out.

Experiment 7. Thermal Expansivity by Dilatometry and Pycnometry The dilatometer and pycnometer used in this experiment are illustrated here. The dila-

Kinetic Energy and Heat Transfer

Recrystallization Lab # 2.

Experimental Procedure Lab 406. Overview A known mass of starting material is used to synthesize the potassium alum. The synthesis requires the careful.

H. SAIBI December 10 th, A pilot, a hot air balloonist, and a scuba diver must all have a good working understanding of air and water temperatures.

Total Solids Presentation

 Does land or water heat up and cool off faster, and what effect does this have on pressure?

Introduction In the middle Ages, defenders of a castle sometimes poured hot liquids down onto invaders who tried to storm the fortress walls. The liquid.

Chapter 10 - Heat and Heat Technology Section 1 – Temperature pp

Manual Density Business Today

Identification of Compounds

Experiment 1. Temperature and Pressure Calibration Temperature measurement tips are illustrated here for one of the setups at Station 4. The reference.

(2) Scientific processes. The student uses scientific methods during field and laboratory investigations. The student is expected to: (A) plan and implement.

Experiment 4. The Triple Point A BC The vacuum manifold diagramed schematically in the ClassPak writeup is shown here in the same perspective, with stop-

identify 1. Start writting the report by identify the manipulated and responding variable. Inference 2. Inference : Cause and effect (of the manipulated.

September 26, Students created a model of the water cycle by heating a beaker of water on a hot plate until it boiled. They carefully held a metal.

The effect of temperature on the rate of an enzyme catalyzed reaction. The effect of temperature on the rate of an enzyme catalyzed reaction. Amani Alghamdi.

Temperature Regulation We need to regulate body temperature to provide the optimum conditions for enzyme-catalysed reactions to be carried out.

 Heat travels from hot to cold  The bigger the temperature difference the faster the rate of transfer.

Investigating Non-Ohmic Resistors Learning Outcome Set up the circuits in order to calculate or directly measure the resistance of variable resistors.

Applied Science III Mr. Finau. What is Temperature?  Temperature is the measurement of how warm or cold a system is  A system means a particular area.

General Laboratory Techniques Dry Lab Chemistry 1105.

Warm up: List 5 safety rules you must follow while conducting a lab experiment.

LAB 5 Cellular Respiration

Identification of Substances by Physical Properties.

Heat Absorption Lab.

Thermal Expansion and contraction

HOW DOES THE THERMOMETER WORK

Heat Energy You need a student booklet, answer key, boy scout situation, Bill Nye video set up, know food calorie vs. heat calorie Part 1.

Organic Chemistry Lab 315 Spring, 2017 (Dr. Pant’s section)

Basic Lab Techniques.

Thermal Physics Experiments.

Specific Heat Capacity Practical

2) The average kinetic energy of the molecules in a substance refers to its ______.

1st six weeks review.

THERMAL PROPERTIES OF MATTER

Temperature, Pressure and volume

Making Measurements On a piece of scrap paper, write down an appropriate reading for the length of the blue rectangle shown below: (then continue…) 1.

Determination of Absolute Zero using Vernier Equipment

Day 29 The weatherman says today’s relative humidity is 70 percent. What does that mean? The air is 70 percent saturated. Can warm air hold more, less,

Thermal energy transfer

Temperature and Heat Kinetic theory – particles are constantly moving and have kinetic energy. The higher the temperature, the faster they move, so the.

Experiment 9. Liquid-Vapor Equilibrium in a Binary System

Heat & Temperature.

Analysis of an Acid Base Titration Curve the Gran Plot

Hemin J Majeed MSc. Pharmaceutical sciences

Analysis of an Acid Base Titration Curve the Gran Plot

Warm Up 3 examples of physical changes are:

Experiment 1. Temperature and Pressure Calibration

Heat and Temperature Unit 4 Lesson 2.

Ethanol - Corn Mash and Distillation

Presentation transcript:

Thermal Expansivity by Dilatometry and Pycnometry Experiment 7. Thermal Expansivity by Dilatometry and Pycnometry The dilatometer and pycnometer used in this experiment are illustrated here. The dila-tometer is in the form of a coiled tube, to facilitate rapid thermal equilibration, and in- cludes a capillary extension having a ruled scale for precise measurement of small volume changes. The pycnometer has been modified from the usual Weld design; it, too, has a capillary extension. This makes its volume variable, but in a calculable way, since the capillary extension has a precisely known diameter. The extension permits one to achieve equilibrium from either below or above (in T), whereas the usual design requires equilibration from below. Both devices have approximate volume 25 mL.

2 The pycnometry measurements are carried out over the range 10-40°C using a thermostatted bath to achieve the desired temperatures for the sample. At the beginning and again at the end of the period, the volume of the pycnometer is determined using water as a “known.” Each measure-ment for the unknown then involves (1) equilibrating the sample at a known T (measured with a thermom-eter) and recording the height h on the capillary; and (2) weighing the pyc-nometer with sample on the analytical balance. The two measurements give V and m for the sample, yielding a precise determination of the density r.

3 The dilatometry measurements employ a large bell jar type beaker full of water as thermal bath. The bell jar is mounted on a stir plate that must be used only to operate the stir bar, NEVER to heat. Heating is accomplished with an immersion heater connected to a Variac. (This way heating starts and stops quickly when the power is turned on and off.) The temperature is monitored with a thermometer graduated in units 0.1°C. These components are all shown in more detail in a picture on the following page. The bath water is cooled initially by adding ice. Then measurements are done working up in temperature by heating with the immersion heater.

4 The dilatometer and thermometer should be mounted such that they are both at least an inch or so from the wall of the bell jar, so that their temperatures will be close to that of the bath. (Since the jar is not insulated, the temperature of the glass will be intermediate between those of the air and of the water at the center of the bath.) The immersion heater should be similarly mounted, so that it delivers its heat to the water and not to the glass wall. The movies on the following page show what happens when the heater is turned on for about a minute at 80% power (120V), for a starting T of ~16°C.

5 The initial slow rise in both T and h is due to the slow warming of the bath in air. Note that after the heater is turned off, there is a lag time of ~2 minutes before T and h return to a slow rate of rise comparable to that at the start. You must wait until then to record your values of T and h.