Rising of argon balloon while heating should be explained and the temperature at which the balloon floated should be determined. Concept introduction: According to Charles’s law at constant pressure and number of moles, volume of a gas container is directly proportional to the temperature of gas. Mathematically this law can be written as, V ∝ T V = b T Where T is temperature and b is proportionality constant. Equation for density is, Density = Mass Volume Density and volume are inversely proportional. As temperature increases, on accordance with Charles’s law volume will increase and density must be decreases Ideal gas equation in terms of Density, Density = Pressure × Molecular mass R × Temperature Density of air,d air = P × MM air R ×T ,where MM air =average molar mass of air To explain: Rising of argon balloon when it is heated.
Rising of argon balloon while heating should be explained and the temperature at which the balloon floated should be determined. Concept introduction: According to Charles’s law at constant pressure and number of moles, volume of a gas container is directly proportional to the temperature of gas. Mathematically this law can be written as, V ∝ T V = b T Where T is temperature and b is proportionality constant. Equation for density is, Density = Mass Volume Density and volume are inversely proportional. As temperature increases, on accordance with Charles’s law volume will increase and density must be decreases Ideal gas equation in terms of Density, Density = Pressure × Molecular mass R × Temperature Density of air,d air = P × MM air R ×T ,where MM air =average molar mass of air To explain: Rising of argon balloon when it is heated.
Solution Summary: The author explains that volume of a gas container is directly proportional to the temperature of gas.
Rising of argon balloon while heating should be explained and the temperature at which the balloon floated should be determined.
Concept introduction:
According to Charles’s law at constant pressure and number of moles, volume of a gas container is directly proportional to the temperature of gas.
Mathematically this law can be written as,
V∝TV=bT
Where T is temperature and b is proportionality constant.
Equation for density is,
Density=MassVolume
Density and volume are inversely proportional. As temperature increases, on accordance with Charles’s law volume will increase and density must be decreases
To explain: Rising of argon balloon when it is heated.
(b)
Interpretation Introduction
Interpretation:
Rising of argon balloon while heating should be explained and the temperature at which the balloon floated should be determined.
Concept introduction:
According to Charles’s law at constant pressure and number of moles, volume of a gas container is directly proportional to the temperature of gas.
Mathematically this law can be written as,
V∝TV=bT
Where T is temperature and b is proportionality constant.
Equation for density is,
Density=MassVolume
Density and volume are inversely proportional. As temperature increases, on accordance with Charles’s law volume will increase and density must be decreases
can someone give a description of this NMR including whether its a triplt singlet doublet where the peak is around at ppm and what functional group it represents
1. Determine the relationship between the following molecules as identical, diastereomers, or enantiomers (6
points, 2 points each).
OH
OH
OH
A-A
OH
HOT
HO-
ACHN
and
HO-
ACHN
OH
HO
HO
°
OH
and
OH
OH
SH
and
...SH
20,0
Complete the electron pushing mechanism to
y drawing the necomery unicaciones and carved on for
Step 1: Add curved arms for the tint step, traiment with NalilĻ. The Nation
458
Step 2: Added for the second step, inalment with), how the "counterion
bar
Step 3: Daw the products of the last simplom organic and one incoganic spacient, including all nonbonding
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