How can you overcome limitations that a calorimeter can have? (imitations such as air being able...

Questions from Calorimeter Lab: 1) Examine the initial and final temperatures in Part I. Explain how...

Questions from Calorimeter Lab: 1) Examine the initial and final temperatures in Part I. Explain how the temperatures tell you what type of thermochemical reaction was involved (endothermic or exothermic). 2) We assumed that no heat is lost to the surroundings beyond the nested coffee cups. In Part I, obviously there would have been some loss in heat as the hot metal is transferred to the calorimeter. How does that unavoidable heat loss affect your calculated specific heat of the...

SETUP In today’s lab we will measure specific heat using a calorimeter. A calorimeter consist of...

SETUP In today’s lab we will measure specific heat using a calorimeter. A calorimeter consist of a small metal cup inside a larger metal container, with a lid.  The cups are thermally separated from each other by means of air and a wooden ring, thus reducing the thermal conduction to a minimum. To keep track of how much water etc. we have, the whole calorimeter will be placed on a digital scale. Make sure to zero the scale before you place...

Describe how you have taken advantage of a significant educational opportunity or worked to overcome an...

Describe how you have taken advantage of a significant educational opportunity or worked to overcome an educational barrier you have faced. Things to consider: An educational opportunity can be anything that has added value to your educational experience and better prepared you for college. For example, participation in an honors or academic enrichment program, or enrollment in an academy that’s geared toward an occupation or a major, or taking advanced courses that interest you — just to name a few....

Can you show me how to calculate the Cp (heat capacity at constant volume) of air...

Can you show me how to calculate the Cp (heat capacity at constant volume) of air at 22.5 degrees Celsius? Not just give the Cp, but show how you worked it out at that temperature. By this I mean using a Heat Capacity Table for air, ie A+BT+CT^2 etc. So the answer of Cp should be a number.

Can you see the case study????? Some have not been able to see it. As presented...

Can you see the case study????? Some have not been able to see it. As presented in this Case Study>>>>>The Carters are a middle-class family who live in a predominantly white area. Mrs. Carter is African American, and Mr. Carter is European American. They are concerned as their son James, a junior in high school and honors student, is adopting music, clothing, and behaviors associated with low-SES African-Americans when they have tried to raise him not to identify with those...

Give one example of how you have used probability in your life. Were you able to...

Give one example of how you have used probability in your life. Were you able to determine the probability based on the classical method, the relative frequency method, or the subjective method? Explain. Think about all the times you do use probability each day and explain which of the three methods you utilize the most throughout the day, and why

You might be able to roughly estimate the mass in a visual manner, but it could...

You might be able to roughly estimate the mass in a visual manner, but it could be easy to dismiss the fact that a mole or even a gram represents a significantly large number of molecules. Avogadro's number, 6.022×1023, describes how many molecules, atoms, or particles are in one mole of a substance. We use moles to describe and compare amounts because the values correspond to the macroscopic scale in which we operate. Let us consider a reaction that takes...

You might be able to roughly estimate the mass in a visual manner, but it could...

You might be able to roughly estimate the mass in a visual manner, but it could be easy to dismiss the fact that a mole or even a gram represents a significantly large number of molecules. Avogadro's number, 6.022×1023, describes how many molecules, atoms, or particles are in one mole of a substance. We use moles to describe and compare amounts because the values correspond to the macroscopic scale in which we operate. Let us consider a reaction that takes...

You have worked on a complex atmospheric mechanism which you now want to recreate in the...

You have worked on a complex atmospheric mechanism which you now want to recreate in the lab. The mechanism includes multiple elementary steps and intermediates. Describe what experiments you would prepare to determine the overall mechanism knowing that an analytical solution is not feasible. How would those experiments help you determine the overall rate of the reaction and the rate with respect each molecule? For one of the steps in the reaction, you have identified an important intermediate which you...

Post lab question reguarding bomb calorimetry: Heat capacity for calorimeter: 10403.64 J/◦C Delta H TTCC: -6864.20...

Post lab question reguarding bomb calorimetry: Heat capacity for calorimeter: 10403.64 J/◦C Delta H TTCC: -6864.20 kJ/mol Resonance energy benzene: 423.01 kJ/mol ΔE = -7096.54kJ/mol 1. How does the bomb get sealed when it is charged with oxygen gas? 2. Why is 1 mL of water added to the bomb before the oxygen gas is added? Would one drop (0.05 mL) of water be satisfactory? 3. Is the mechanical energy of the stirrer included in the heat capacity of the...