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∙ 14y agothe gas occupies a volume of37.7 ml as stated in the question
either your question is wrong or incomplete.
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∙ 14y agoTo find the volume of the gas, first calculate the pressure of the gas alone using the vapor pressure of water at 19 degrees Celsius. Then, apply the ideal gas law to find the volume of the gas. Remember to convert the mass of the gas from milligrams to grams before proceeding with the calculations.
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∙ 13y ago729 torr.
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∙ 12y ago1.056 atm
To find the volume of the gas at 152°C, you can use the Charles's Law equation, V1/T1 = V2/T2, where V1 is the initial volume (262 mL), T1 is the initial temperature (-35.0°C), V2 is the final volume (unknown), and T2 is the final temperature (152°C). Plug in the values and solve for V2 to find the volume of the gas at 152°C.
The mass of water at 25 degrees Celsius, without knowing the volume, cannot be determined. Mass is dependent on both volume and density, and without the volume of water given, it is not possible to calculate its mass.
Charon, Pluto's largest moon, has an average surface temperature of around minus 220 degrees Celsius (minus 364 degrees Fahrenheit). It is extremely cold due to its distance from the Sun and its thin atmosphere that cannot retain heat well.
Use the Ideal Gas Law: PV=nRT (pressure times volume equals moles times the ideal gas constant of 0.082 times the Kelvin temperature.) First, convert 25 Celsius to Kelvin: 25+273=298. Next, find out how many moles is in 25.0g of XeF6: 1(Xe)+6(F)=1(131.3)+6(19)=245g/mol; 25g XeF6=0.102mol. Then, plug it all in and solve for the pressure, which is your unknown: P(5L)=0.102mol(0.082)(298kelvins) Simplify: 5P=2.4925, P=0.4985, or approximately 0.5 atm of pressure.
That will depend on the temperature scale (eg Kelvin, Fahrenheit, Celsius etc.) you are wishing to use to measure it and the substance who's boiling point you are trying to ascertain (eg boiling point of Oxygen or the boiling point of Iron or the boiling point of Water etc.). Water's boiling point is at 100° C, 373.15° K, and 212° F.
Using the ideal gas law formula (P1/T1 = P2/T2), we can solve for the new pressure. The initial pressure at 22 degrees Celsius is 740mm Hg and the initial temperature is 22 degrees Celsius. The new temperature is -22 degrees Celsius. Plugging these values into the formula, the new pressure is approximately 463 mm Hg.
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Liquid argon freezes at a temperature of -189 degrees Celsius (-308 degrees Fahrenheit).
define the unknown angle measure between 64 degrees 58 degrees and 98 degrees?
The mass of water at 25 degrees Celsius, without knowing the volume, cannot be determined. Mass is dependent on both volume and density, and without the volume of water given, it is not possible to calculate its mass.
To find the volume of the gas at 152°C, you can use the Charles's Law equation, V1/T1 = V2/T2, where V1 is the initial volume (262 mL), T1 is the initial temperature (-35.0°C), V2 is the final volume (unknown), and T2 is the final temperature (152°C). Plug in the values and solve for V2 to find the volume of the gas at 152°C.
In Fahrenheit, 32°F is the freezing point of the water and the boiling point is 212°F. Fahrenheit for unknown reasons calibrated his scale so that 0 was the freezing point of salt water and 100 was the internal temperature in his mouth.
Charon, Pluto's largest moon, has an average surface temperature of around minus 220 degrees Celsius (minus 364 degrees Fahrenheit). It is extremely cold due to its distance from the Sun and its thin atmosphere that cannot retain heat well.
If the total is 360 then x= 47 degrees
Use the Ideal Gas Law: PV=nRT (pressure times volume equals moles times the ideal gas constant of 0.082 times the Kelvin temperature.) First, convert 25 Celsius to Kelvin: 25+273=298. Next, find out how many moles is in 25.0g of XeF6: 1(Xe)+6(F)=1(131.3)+6(19)=245g/mol; 25g XeF6=0.102mol. Then, plug it all in and solve for the pressure, which is your unknown: P(5L)=0.102mol(0.082)(298kelvins) Simplify: 5P=2.4925, P=0.4985, or approximately 0.5 atm of pressure.
It has to be 45 degrees.
That will depend on the temperature scale (eg Kelvin, Fahrenheit, Celsius etc.) you are wishing to use to measure it and the substance who's boiling point you are trying to ascertain (eg boiling point of Oxygen or the boiling point of Iron or the boiling point of Water etc.). Water's boiling point is at 100° C, 373.15° K, and 212° F.