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Specific heat of metal experiment

One gram of water takes 4. This means that water has the highest heat capacity. It must release 4. The heat water releases is absorbed by its environment.

Knowing the heat capacity of water, it is possible to find how well its environment insulates it. Also using the heat capacity of water, one can figure out the heat capacity of an unknown substance by putting it in water and measure the temperature change of the water and the unknown substance. In this experiment, this is exactly what was performed.

First, an empty Styrofoam cup and lid were weighed and its mass was recorded. The temperature of the water was also recorded. Next, 30 mL of water was heated until boiling and this temperature was also recorded. The boiling water was poured into the Styrofoam cup and the final temperature of the combined water was measured and recorded.

The final mass of the cup was also recorded. For the next part of the experiment, an empty Styrofoam cup and lid were again weighed and its mass was recorded. The final temperature of the water was measured and recorded, as was the final mass of the cup. For the determination of the calorimeter constant, to find the mass of cool water in the cup, I simply subtracted the mass of the empty cup from the mass of the cup with 70 mL of water.

To find the mass of hot water added, I subtracted the mass the cup with 70 mL of water from the mass of the cup with the 70 mL of cool water and 30 mL of hot water.

Comparing Specific Heats of Metals

To find the temperature changes, I found the difference in temperatures between the final and the initial readings. I then converted those temperatures to Kelvin from Celsius by adding For the determination of the heat capacity of a metal, I performed the same operation as I did for the determination of the calorimeter constant, only replacing the mass of hot water with the mass of the hot metal. The equation for the heat capacity of the metal was also different.Nailer I. The heat is calculated from the equation II.

Purpose The purpose of this laboratory is to determine the experimental. Then, use the equations to see the relationship between change in energy and the amount of substance involved.

The variety of intensity of solar storm is like the difference between being hit with a tropical rainstorm and being devastated by a Category 5 hurricane. Oak Ridge National Laboratories estimated that only a solar storm just slightly stronger than the 13 March storm would have the capacity to produce a cascading blackout involving the entire Northeastern sector of the. Energy exchange can occur as work or as heat flow.

When a reaction occurs under constant-pressure conditions, we call the heat portion of the energy exchanged the enthalpy change of the reaction. Because the work can be hard to measure accurately, and because the work often represents only a minor fraction of the total energy change, we often focus only on the heat form of energy exchange.

Measuring the enthalpy change of a chemical reaction gives information.

This report aims initially to focus on the energy situation in the United Kingdom, and then present two forms of energy conventional energy in specific coal, and renewable energy which is wind energy, and will finally recommend the most suitable one after comparing and contrasting them considering both the cost and environment. Many trials and experiments provide great vision into the structure and dynamics of water, but these often need the resources of a main research laboratory.

Furthermore, some must come about under exciting conditions, such as those leading to superheated or super cooled water. One of the major water treatment processes is Desalination. Desalinations is the process of eliminating excess salt and other. Ibele April 17, Introduction: The first law of thermodynamics states that energy cannot be created nor destroyed. Therefore when energy leaves one place it has to have another place to go to, it maintains a constant rate. Solid sorbent properties Solid sorbents are small porous particles which can selectively adsorb or complex with gaseous chemical species in this case, CO2thereby removing the species from a gas mixture.

Molecules of CO2 may be held loosely by weak intermolecular forces termed? Generally, physiosorption occurs when the heat of adsorption is greater. Desalting can be done in a number of ways, but the result is always the same: drinking water is produced from brackish somewhat salty water or seawater.

Specific Heat of a Metal Lab

Desalting technologies can be used for a number of applications, but the purpose of this report is to discuss the use of desalting to produce drinking water from saline water for domestic or municipal purposes.

Throughout history, people have continually tried to treat salty water so that it could be used for drinking and agriculture. Of all. The flow of the energy is from the object of higher temperature to the object of lower temperature. The heat is measured in units of energy, usually calories or joules. Temperature on the other hand, is how cold or hot an object is. The temperature is the average kinetic energy per molecule of a substance. This is measured in degrees on the Celsius or Fahrenheit or in Kelvins.

Specific Heat Capacity Laboratory Report William Arndt 23rd May Abstract The specific heat capacity of the two unknown metals were determined by measuring the transfer of heat from the metal to water, through the use of a calorimeter.

The specific heat capacity of the first metal was determined to bethis correlates with …. Introduction When a substance is heated, the motion of its individual particles increases, resulting in an increase in temperature.Heat is a form of energy that is transferred between objects with different temperatures.

Heat always flows from high temperature to low temperature. Specific heat can be defined as the amount of heat required q to raise the temperature of one gram of the substance by one degree Celsius.

Equation 1. Each pure substance has a specific heat that is a characteristic physical property of that substance. The specific heats of some common substances are provided in Table 1. The magnitude of specific heat varies greatly from large values like that of water 4. When equal masses of objects are heated to absorb an equal amount of heat, the object with smaller the specific heat value would cause the greatest increase in temperature.

Heat energy is either absorbed or evolved during nearly all chemical and physical changes. If heat is absorbed or enters the system, the process is endothermic and if heat is evolved or exits the system, the process is exothermic.

In the laboratory, heat flow is measured in an apparatus called a calorimeter.

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A calorimeter is a device used to determine heat flow during a chemical or physical change. A doubled Styrofoam cup fitted with a cover in which a hole is bored to accommodate a thermometer can serve well as a calorimeter See Figure 7. In this experiment you will heat a known mass of a metal to a known temperature and then transfer it to a calorimeter that contains a known amount of room temperature water T c.

The maximum temperature reached by the water in the calorimeter T max will be recorded and the temperature change of the water T max - T c and the temperature change of the metal The flow of energy heat between a metal and its environment is described by Equations 3 and 4.

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This experiment is done in a team of two. Place mL of room temperature water from a carboy in a mL beaker and set it aside for later use.

Next place about mL of tap water into a mL beaker. Add boiling chips into the tap water to prevent bumping.High performance. Simple structure, stable and reliable. According to Newton's cooling law, cooling method is one of the common methods for measuring the specific heat capacity of metals.

If the specific heat capacity at different temperatures of a standard sample is known, the specific heat capacity at different temperatures of various metals can be measured by using the cooling curve. The LETI, Apparatus of Measuring Specific Heat Capacity, is designed with a few innovations compared with the traditional experimental methods and experimental instruments.

In the aspect of experimental method, the cooling conditions of the sample are no longer only natural cooling in room temperature environment, but also use a fan to create forced convection for cooling environment. The advantages and disadvantages of the two cooling conditions can be compared and analyzed. In the aspect of experimental device, the heating device is a PTC heating plate working at a safe voltage with temperature limiting.

A temperature sensor of PT resistance is used to replace the traditional Copper-constantan thermocouple that needs an icy reference end to work. The sample chamber is changed from the traditional up and down vertical structure to the left and right horizontal structure.

The heater movement in the sample chamber is also changed from up and down to left and right, making the experimental operation more convenient. This experimental apparatus mainly consists of a main electric unit, a heater, a sample chamber, a cooling fan, a PT platinum resistance, and so on. Using this apparatus, the following experiments can be performed:. Key Specifications. Part List. Lab Equipment for Teaching Physics.

An example of experimental results. Learn to measure temperature using PT platinum resistance; 2. All rights reserved.Two different metals, aluminum and lead, of equal mass are heated to the same temperature in a boiling water bath.

The metals are added to two insulated cups or calorimeters, each containing the same amount of water initially at room temperature. Students are asked to predict what will happen to the temperature of water and the temperature of the metals. The temperature of the water changes by different amounts for each of the two metals.

This demonstration assess students' conceptual understanding of specific heat capacities of metals. Compare the heat gained by the water in Experiment 1 to the heat gained by the water in experiment 2. The Law of Conservation of Energy is the "big idea" governing this experiment. Each different type of metal causes the temperature of the water to increase to a different final temperature.

This indicates that each metal has a different ability to absorb heat energy and to transfer heat energy. The ability of a substance to contain or absorb heat energy is called its heat capacity. Heat capacity is an extensive property—it depends on the amount or mass of the sample.

Specific heat is a measure of the heat capacity of a substance. Specific heat is defined as the amount of heat required to increase the temperature of one gram of a substance by one degree Celsius. A computer animation depicting the interaction of hot metal atoms at the interface with cool water molecules can accompany this demonstration see file posted on the side menu.

Use experimental data to develop a conceptual understanding of specific heat capacities of metals. Given appropriate calorimetry data for two metals, predict which metal will increase the temperature of water the most. Use experimental data to develop a relationship among the variables: heat, mass, specific heat, and change in temperature. Apply the First Law of Thermodynamics to calorimetry experiments. Identify what gains heat and what loses heat in a calorimetry experiment.

Specific Heat Capacity Laboratory Report

For a physical process explain how heat is transferred, released or absorbed, at the molecular level. Given appropriate calorimetry data for two metals, predict which metal will increase its temperature the quickest shortest time when each metal starts at room temperature and is uniformly heated. Balance, centigram 0. Because the density of aluminum is much lower than that of lead and zinc, an equal mass of Al occupies a much larger volume than Pb or Zn.

Heat the metals for about 6 minutes in boiling water. Place 50 mL of water in a calorimeter. Measure and record the temperature of the water in the calorimeter. Have students predict what will happen to the temperature of the water in the two calorimeters when hot lead is added to one and hot aluminum is added to the other. See the attached clicker question. After students have answered the question, use the tongs and grab the hot lead metal and place it in 50 mL of room temperature water.

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Notify me of new posts by email. The first step to the experiment is to set up a series circuit connecting the battery pack to ammeter and inversion heater and then back to the battery pack. You need to make sure that the battery pack is accurate and will need to use a Voltmeter to get the voltage coming out at exactly 12 volts. You need to also check all cables to make sure they work. Measure the mass of the metal block and record this. Once you have done this, connect the Voltmeter in parallel to the series circuit so it is connecting only to the immersion heater.

You can now place the thermometer into the other whole in the metal block. The set up for the experiment is complete. You need to record the first temperature reading of the metal block before the experiment.

Once you have done this, you can turn the battery back on and start the stop clock. When recording the volts and amps, take an average for the duration of the experiment. After 5 minutes secondsturn the battery pack off but leave the circuit as it is for another minute. This is because the immersion heater after the battery pack is turned off will still be providing heat to the metal block.

After a minute, record the temperature and find the temperature change measuring temperature in degrees Celsius or kelvin. You have the voltage V and current I of the circuit and time s. For our experiment, we gained the following information:. This equals to For the experiment to explore the specific heat capacity of water, we need:.

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Distilled water ml. Aluminium calorimeter, lid and stirrer. Electronic mass balance, 0. Stop clock.

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Power supply. Set up the apparatus as shown in the diagram above but without the water. Check the heating element draws a current when V d.Specific and Latent Heat Values. Density of Various Materials. Figure 1. Two metal samples.

Your lab group will need two pieces of either sample for this experiment. Figure 2. The metal samples are heated within a water bath shown here. The apparatus includes a stainless steel container and hot plate.

Determining the Heat Capacity of Unknown Metals

A glass thermometer is used to monitor the temperature of the water bath. The rod and clamp are used to hold the thermometer in place. See Caution note below!

Figure 3. The styrofoam calorimeter. Figure 4. A typical wooden calorimeter. The metal cup is made of aluminum. Figure 5. The Vernier computer interface and stainless steel temperature probe. The probe is useful for accurately monitoring the temperature of the water contained in the calorimeter. Figure 6. A screen shot of the Thermometer program located in the Lab Programs folder on the computer desktop.

See the Hints and Cautions section below to learn how to import your screen shots into your lab report. Figure 7. A triple-beam balance. Figure 8. Wear the hot-hand protector when handling the hot stainless steel container.

Ice Paper towels Small beaker Vernier caliper. Clemson University.

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