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Pressure - Temperature Relationship Data and Calculations for Temperature Pressure Relationship...
please answer question 5. Pressure - Temperature Relationship Calculated constant, k (P.1) Data and Calculations for...
please answer question 5.
Pressure - Temperature Relationship Calculated constant, k (P.1) Data and Calculations for Temperature Pressure Relationship Pressure Temperature Temperature Calculated (kPa) (°C) (K) Constant, (P/T) 100.88 26.0 299.15 0.33122 105.13 60.1 333.25 0.31547 106.33 75.5 348.65 10.30498 108.40 83.5 35b.bs 0.30394 110.38 95.0 318.15 0.29982 30178.252 350 34 573 37071.955 138660.86 40636.97 Processing the data 1. A way to determine if a relationship is inverse or direct is to find a proportionality constant, k, from the data....
Boyle's Law PROCEDURE - HOW THE EXPERIMENT WAS DONE 1. Students used the apparatus above to...
Boyle's Law
PROCEDURE - HOW THE EXPERIMENT WAS DONE 1. Students used the apparatus above to generate the data for this experiment. 2. Volume and pressure data from the experiment were recorded in the table that follows DATA AND CALCULATIONS Volume pressure Constant, k (ml) (Pa) P/V or P.V 5.8 175.9 7.8 131.4 9.8 105.1 11.887.0 13.8 74.4 15.8 165.1 17.8 57.6 PROCESSING THE DATA-DATA FROM THE EXPERIMENT IS GIVEN IN THE TABLE ABOVE. 1. If the volume is roughly...
1. These questions are referring to the Boyle's law experiment only. a. Analyzing the shape of...
1. These questions are referring to the Boyle's law experiment only. a. Analyzing the shape of the curve in the plot of pressure versus volume, do you think the relationship between the pressure and volume of a confined gas is direct or inverse? Explain your answer. b. What experimental factors are assumed to be constant in this experiment? c. Using P. V, and k, write an equation representing Boyle's law AND write a verbal statement that correctly expresses Boyle's law,...
Synthesis Questions Use available resources to help you answer the following questions. 1. Consider the Erlenmeyer...
Synthesis Questions Use available resources to help you answer the following questions. 1. Consider the Erlenmeyer flask with the stopper tightly inserted. How do you think the pressure would change if you doubled the number of molecules (moles) in the flask? Explain your prediction! 2. Based on your answer to the previous question, what kind of mathematical relationship is there between the pressure and number of moles nof a gas? What is the mathematical representation of that relationship? 3. Combine...
6. According to this experiment, what should happen to the pressure of a gas if the Kelvin temperature is doubled?...
6. According to this experiment, what should happen to the pressure of a gas if the Kelvin temperature is doubled? Check this assumption by finding the pressure at -73°C (200 K) and at 127°C (400 K) on your graph of pressure versus temperature. How do these two pressure values compare? DATA AND CALCULATIONS Pressure (kPa) 106.72 em Tom Temperature ("C) 22.1°C 13°C 62.26 81.5°C Temperature (K) 295.258 286.15k 335.35 354.65k 101.00 120.52 135.68 Constant, (P/T or P-T) 0. 36 0....
I need help please LAB XV. BOYLE'S LAW DATA SHEET NAME: 1. Atmospheric Pressure, mmHg 2....
I need help please
LAB XV. BOYLE'S LAW DATA SHEET NAME: 1. Atmospheric Pressure, mmHg 2. Atmospheric Pressure, atm 3, Room Temperature, ? 4. Room Temperature, K 5. What variables are plotted in each curved graph? (Keyboard, Khd, is not a variable). SECTION: 892x The relationship demonstrated in this experiment in each of these curved graphs is: As increases, (variable) (variable) (increases, decreases) 6. What variables are plotted in each of the "linear" graphs? What relationship is demonstrated in each...
010 Datasheet and calculations Record the change pressure that occurred during the reaction and the mewn...
010 Datasheet and calculations Record the change pressure that occurred during the reaction and the mewn m water bath in your data table ature of the Volume of Flask, ml. 260 mL Mass of metal (Mg) in 666 af 0.047 0.030 y A. Max Pressure in Nask, in kPa or at 111.73 104.30 B Atmospheric pressure, (starting pressure). or in kPa or at P 102.60 102.10 Change in pressure or hydrogen gas. in kPa or atm (A-B) 9.13 kPa |...
the equation is what needs to be found from the graph using Boyle's law. 1. Using...
the
equation is what needs to be found from the graph using Boyle's
law.
1. Using the equation from your graph, calculate the pressure at 5.0 mL and at 10.0 mL. - 2. When the volume doubled, what happened to the pressure (as calculated above)? 3. From your answers to the first two questions and the shape of the curve in the plot of pressure versus volume, do you think the relationship between the pressure and volume of a confined...
data provided please solve Q5 & Q6 Q4 answer Table 2. Experimental Data Trial 1 Trial...
data provided
please solve Q5 & Q6
Q4 answer
Table 2. Experimental Data Trial 1 Trial 2 Trial 3 30.13 Atmospheric Pressure (inches Hg) Mass Mg used (6) 0.039 0.025 0.011 Volume Hz gas generated (mL) 39.58 25.89 11.47 Water Temperature (°C) 19.0 19.0 19.0 16.48 16.48 16.48 Partial Pressure Water Vapor (mm Hg: from Table 1) Difference in Water Levels (mm) 14.31cm 35.72cm 46.13cm Table 3. Molar Gas Volume and Ideal Gas Constant Calculations Trial 1 Trial 2 Trial...
help! please answer #2 and graph the data. ( v stands for volume in question 2)...
help! please answer #2 and graph the data. ( v stands for volume
in question 2)
Name: Virtual Gas Law Simulation Lab Chem 1A_Lab: Report page 2 Data Exp. 2: Gay-Lussac's Law Experiment with 50 red particles (light) Temp. Pressure Ave. Speed (c) (atm) (m/s) I -200 1.3 585 -150 12.5 17D -10 .9. 5 915 * graph on which you plot the pressure of a gas as a function of Temperature to 0 So 00 I .3 3 .0...
please answer question 5.
Pressure - Temperature Relationship Calculated constant, k (P.1) Data and Calculations for Temperature Pressure Relationship Pressure Temperature Temperature Calculated (kPa) (°C) (K) Constant, (P/T) 100.88 26.0 299.15 0.33122 105.13 60.1 333.25 0.31547 106.33 75.5 348.65 10.30498 108.40 83.5 35b.bs 0.30394 110.38 95.0 318.15 0.29982 30178.252 350 34 573 37071.955 138660.86 40636.97 Processing the data 1. A way to determine if a relationship is inverse or direct is to find a proportionality constant, k, from the data....
Boyle's Law
PROCEDURE - HOW THE EXPERIMENT WAS DONE 1. Students used the apparatus above to generate the data for this experiment. 2. Volume and pressure data from the experiment were recorded in the table that follows DATA AND CALCULATIONS Volume pressure Constant, k (ml) (Pa) P/V or P.V 5.8 175.9 7.8 131.4 9.8 105.1 11.887.0 13.8 74.4 15.8 165.1 17.8 57.6 PROCESSING THE DATA-DATA FROM THE EXPERIMENT IS GIVEN IN THE TABLE ABOVE. 1. If the volume is roughly...
1. These questions are referring to the Boyle's law experiment only. a. Analyzing the shape of the curve in the plot of pressure versus volume, do you think the relationship between the pressure and volume of a confined gas is direct or inverse? Explain your answer. b. What experimental factors are assumed to be constant in this experiment? c. Using P. V, and k, write an equation representing Boyle's law AND write a verbal statement that correctly expresses Boyle's law,...
Synthesis Questions Use available resources to help you answer the following questions. 1. Consider the Erlenmeyer flask with the stopper tightly inserted. How do you think the pressure would change if you doubled the number of molecules (moles) in the flask? Explain your prediction! 2. Based on your answer to the previous question, what kind of mathematical relationship is there between the pressure and number of moles nof a gas? What is the mathematical representation of that relationship? 3. Combine...
6. According to this experiment, what should happen to the pressure of a gas if the Kelvin temperature is doubled? Check this assumption by finding the pressure at -73°C (200 K) and at 127°C (400 K) on your graph of pressure versus temperature. How do these two pressure values compare? DATA AND CALCULATIONS Pressure (kPa) 106.72 em Tom Temperature ("C) 22.1°C 13°C 62.26 81.5°C Temperature (K) 295.258 286.15k 335.35 354.65k 101.00 120.52 135.68 Constant, (P/T or P-T) 0. 36 0....
I need help please
LAB XV. BOYLE'S LAW DATA SHEET NAME: 1. Atmospheric Pressure, mmHg 2. Atmospheric Pressure, atm 3, Room Temperature, ? 4. Room Temperature, K 5. What variables are plotted in each curved graph? (Keyboard, Khd, is not a variable). SECTION: 892x The relationship demonstrated in this experiment in each of these curved graphs is: As increases, (variable) (variable) (increases, decreases) 6. What variables are plotted in each of the "linear" graphs? What relationship is demonstrated in each...
010 Datasheet and calculations Record the change pressure that occurred during the reaction and the mewn m water bath in your data table ature of the Volume of Flask, ml. 260 mL Mass of metal (Mg) in 666 af 0.047 0.030 y A. Max Pressure in Nask, in kPa or at 111.73 104.30 B Atmospheric pressure, (starting pressure). or in kPa or at P 102.60 102.10 Change in pressure or hydrogen gas. in kPa or atm (A-B) 9.13 kPa |...
the
equation is what needs to be found from the graph using Boyle's
law.
1. Using the equation from your graph, calculate the pressure at 5.0 mL and at 10.0 mL. - 2. When the volume doubled, what happened to the pressure (as calculated above)? 3. From your answers to the first two questions and the shape of the curve in the plot of pressure versus volume, do you think the relationship between the pressure and volume of a confined...
data provided
please solve Q5 & Q6
Q4 answer
Table 2. Experimental Data Trial 1 Trial 2 Trial 3 30.13 Atmospheric Pressure (inches Hg) Mass Mg used (6) 0.039 0.025 0.011 Volume Hz gas generated (mL) 39.58 25.89 11.47 Water Temperature (°C) 19.0 19.0 19.0 16.48 16.48 16.48 Partial Pressure Water Vapor (mm Hg: from Table 1) Difference in Water Levels (mm) 14.31cm 35.72cm 46.13cm Table 3. Molar Gas Volume and Ideal Gas Constant Calculations Trial 1 Trial 2 Trial...
help! please answer #2 and graph the data. ( v stands for volume
in question 2)
Name: Virtual Gas Law Simulation Lab Chem 1A_Lab: Report page 2 Data Exp. 2: Gay-Lussac's Law Experiment with 50 red particles (light) Temp. Pressure Ave. Speed (c) (atm) (m/s) I -200 1.3 585 -150 12.5 17D -10 .9. 5 915 * graph on which you plot the pressure of a gas as a function of Temperature to 0 So 00 I .3 3 .0...
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