Using the data found in the table below,calculate the k value for Avogadro's Law.Pressure,kPa86.2Volume, Temperature,mL °C17.21 52.8Molecule147*Report rounded value with the correctnumber of significant digits.**Only use numeric values in youranswer. Do not use words, spaces, orsymbols (ie. %).** The k values determined experimentally areessentially conversion factors between thetwo variables. These k values can be used topredict the state of the gas if one of themeasurements are known.Predict the volume of a sample of gas if thetemperature of the gas is 56.5 °C and the kvalue for Charles' Law is 0.701 mL/°C.

Pressure = 86.2 kPaVolume = 17.21 mLTemperature = Molecules = 147Avogadro's Law is a fundamental…

Using the data found in the table below, calculate the k value for Avogadro's Law. Pressure,kPa 86.2 Volume, Temperature, mL °C 17.21 52.8 Molecule 147 *Report rounded value with the correct number of significant digits. **Only use numeric values in your answer. Do not use words, spaces, or symbols (ie. %).**

Using the data found in the table below, calculate the k value for Avogadro's Law. Pressure,kPa 86.2 Volume, Temperature, mL °C 17.21 52.8 Molecule 147 *Report rounded value with the correct number of significant digits. Only use numeric values in your answer. Do not use words, spaces, or symbols (ie. %).

Chemistry

10th Edition

ISBN:9781305957404

Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Chapter1: Chemical Foundations

Section: Chapter Questions

Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...

See similar textbooks

Similar questions

What can you conclude about the relative magnitudes of the lattice energy of ammonium chloride and its heat of hydration? The lattice energy is smaller greater in magnitude than the heat of hydration.
If you are requested to compound 150 mL of the Concentrated Peppermint Water in the Laboratory from the original amount of 500 mL of Concentrated Peppermint water with the given formulation: 10.0 mL of Peppermint Oil, 25.0 g talc, and 500 mL of 90% ethyl alcohol. Calculate for the volume of Peppermint Oil required for the preparation. a 3.00 mL b 2.47 mL c 3. 68 mL d 3.21 mL
The cocoa bean has a [H3O+]= 1.26×10−5 mol/L. What is the -pOH? note: write the answer in 2 significant figures only
consider an experiment where 4.55mL of an unknown H2O2(aq) solution reacted with the yeast at 19.1 C to produce 98.10ml of gas. what is the partial pressure of O2 (in atm) in the collected gas? 1.0126 atm O2 (this is the correct answer. Can you please show me how to get this calculation) How many moles of O2 were produced by the reaction? 0.004142 mol O2 is the answer.
2.) Calculate the moles of KHP in flask #2. grams KHP Molar Mass of KHP (A2) 204.22 g/mol moles KHP %3D Cal .009 (A11) %3D NOR 204.22 g/mol
Compare the enthalpy of a solid becoming part of a liquid solution and the enthalpy of gas becoming part of a liquid solution. Will these processes be more favorable at low or high temperatures? Explain your answer.
A student experimentally determines the gas law constant, R, by reacting a small piece of magnesium with excess hydrochloric acid and then collecting the hydrogen gas over water in a eudiometer. Based L-atm on experimentally collected data, the student calculates R to equal 0.0832 mol·K L-atm Ideal gas law constant from literature: 0.08206 mol·K (a) Determine the percent error for the student's R-value. Percent error = % (b) For the statements below, identify the possible source(s) of error for this student's trial. The student notices a large air bubble in the eudiometer after collecting the hydrogen gas, but does not dislodge it. The student does not clean the zinc metal with sand paper. The student does not equilibrate the water levels within the eudiometer and the beaker at the end of the reaction. The water level in the eudiometer is 1-inch above the water level in the beaker. The student uses the barometric pressure for the lab to calculate R.
Directions: Solve for what is being asked in each problem. Show your solutions and box your final answer. 1. If oxygen exerts a 4atm of pressure in a mixture and the total pressure of the system is 10 atm, what would be the mole fraction of oxygen in the mixture? 2. Compute for the mole fraction of neon exerting a pressure of 0.28 atm in a gas mixture which has a total pressure of 1.15 atm.
6. The ideal gas law is a very simple mathematical relationship that relates several physical properties of a gas. This law is only valid when the behavior of a gas is idealized according to three principal assumptions. (i) State the three assumptions made about an ideal gas, and for each assumption (ii) explain which physical property of a gas would be affected if that assumption was not made.
If you mix 1.09 moles of He and 1.312 moles of Ne in a closed container, what is the resulting mole fraction of He? Your answer should be a dimensionless (unitless) number between 0 and 1.
Constants Periodic Table A sample of a liquid substance called jojane- named after the narcissitic scientist Dr. Joey Negdirf who discovered the substance- was brought back to Earth following a five year mission exploring the Andromeda galaxy. In their lab on earth, Dr. Negdirf's team conducted a number of experiments to determine the physical properties of the substance. Part A Using the Dumas method to determine the molar mass of a volatile liquid, a sample of jojane was vaporized in a 2.000 L vessel and heated to 401.6 K at 1.150 bar. The mass of the vapour in the vessel was 5.106 g. Determine the the molar mass of the compound. 60.10 g mol-1 O 88.14 g mol-1 O 72.09 g mol-1 O 74.12 g mol-1
Use your text or other reference to find the partial pressure of water at 25°C, 26°C, and 27°C and record those values.