To apply the ideal gas law to problems involving temperature, pressure, volume, and moles of a gas. The four properties of gases (pressure PPP, volume VVV, temperature TTT, and moles of gas nnn) are related by a single expression known as the ideal gas law: PV=nRTPV=nRT The variable RRR is known as the universal gas constant and has the value R=0.0821 L⋅atm/(mole⋅K)R=0.0821 L⋅atm/(mole⋅K). The units of RRR dictate the units for all other quantities, so when using this value of RRR, use units of atmospheres for pressure, liters for volume, and kelvins for temperature. A balloon is floating around outside your window. The temperature outside is 37 ∘C∘C , and the air pressure is 0.800 atmatm . Your neighbor, who released the balloon, tells you that he filled it with 4.80 molesmoles of gas. What is the volume of gas inside this balloon? Express your answer to three significant figures and include the appropriate units.
To apply the ideal gas law to problems involving temperature, pressure, volume, and moles of a gas. The four properties of gases (pressure PPP, volume VVV, temperature TTT, and moles of gas nnn) are related by a single expression known as the ideal gas law: PV=nRTPV=nRT The variable RRR is known as the universal gas constant and has the value R=0.0821 L⋅atm/(mole⋅K)R=0.0821 L⋅atm/(mole⋅K). The units of RRR dictate the units for all other quantities, so when using this value of RRR, use units of atmospheres for pressure, liters for volume, and kelvins for temperature. A balloon is floating around outside your window. The temperature outside is 37 ∘C∘C , and the air pressure is 0.800 atmatm . Your neighbor, who released the balloon, tells you that he filled it with 4.80 molesmoles of gas. What is the volume of gas inside this balloon? Express your answer to three significant figures and include the appropriate units.
To apply the ideal gas law to problems involving temperature, pressure, volume, and moles of a gas. The four properties of gases (pressure PPP, volume VVV, temperature TTT, and moles of gas nnn) are related by a single expression known as the ideal gas law: PV=nRTPV=nRT The variable RRR is known as the universal gas constant and has the value R=0.0821 L⋅atm/(mole⋅K)R=0.0821 L⋅atm/(mole⋅K). The units of RRR dictate the units for all other quantities, so when using this value of RRR, use units of atmospheres for pressure, liters for volume, and kelvins for temperature. A balloon is floating around outside your window. The temperature outside is 37 ∘C∘C , and the air pressure is 0.800 atmatm . Your neighbor, who released the balloon, tells you that he filled it with 4.80 molesmoles of gas. What is the volume of gas inside this balloon? Express your answer to three significant figures and include the appropriate units.
To apply the ideal gas law to problems involving temperature, pressure, volume, and moles of a gas.
The four properties of gases (pressure PPP, volume VVV, temperature TTT, and moles of gas nnn) are related by a single expression known as the ideal gas law:
PV=nRTPV=nRT
The variable RRR is known as the universal gas constant and has the value R=0.0821 L⋅atm/(mole⋅K)R=0.0821 L⋅atm/(mole⋅K). The units of RRR dictate the units for all other quantities, so when using this value of RRR, use units of atmospheres for pressure, liters for volume, and kelvins for temperature.
A balloon is floating around outside your window. The temperature outside is 37 ∘C∘C , and the air pressure is 0.800 atmatm . Your neighbor, who released the balloon, tells you that he filled it with 4.80 molesmoles of gas. What is the volume of gas inside this balloon?
Express your answer to three significant figures and include the appropriate units.
Definition Definition Any of various laws that describe the ways in which volume, temperature, pressure, and other conditions correlate when matter is in a gaseous state. At a constant temperature, the pressure of a particular amount of gas is inversely proportional with its volume (Boyle's Law) In a closed system with constant pressure, the volume of an ideal gas is in direct relation with its temperature (Charles's Law) At a constant volume, the pressure of a gas is in direct relation to its temperature (Gay-Lussac's Law) If the volume of all gases are equal and under the a similar temperature and pressure, then they contain an equal number of molecules (Avogadro's Law) The state of a particular amount of gas can be determined by its pressure, volume and temperature (Ideal Gas law)
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