Download - Answers To Timed Assignment For Gases, Atomic Structure And Physical Periodicity (section a)
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Answers to Timed Assignmenton
Gases, Atomic Structure and Physical PeriodicitySection A
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1. Which one of the following diagrams correctly describes the behaviour of a fixed mass of ideal gas? (T is constant.) A B C D
pv
p
pv
p
pv
p
pv
p
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1. Which one of the following diagrams correctly describes the behaviour of a fixed mass of ideal gas? (T is constant.)
All four graphs have the same axes.
![Page 4: Answers To Timed Assignment For Gases, Atomic Structure And Physical Periodicity (section a)](https://reader036.vdocument.in/reader036/viewer/2022070510/58a792a81a28ab5f6c8b58a7/html5/thumbnails/4.jpg)
1. Which one of the following diagrams correctly describes the behaviour of a fixed mass of ideal gas? (T is constant.)
All four graphs have the same axes.
y axis - pV
x axis - p
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1. Which one of the following diagrams correctly describes the behaviour of a fixed mass of ideal gas? (T is constant.)
All four graphs have the same axes.
y axis - pV
x axis - p
p V = n R T
y = m
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1. Which one of the following diagrams correctly describes the behaviour of a fixed mass of ideal gas? (T is constant.)
All four graphs have the same axes.
y axis - pV
x axis - p
p V = n R T
y = m
pV
p
![Page 7: Answers To Timed Assignment For Gases, Atomic Structure And Physical Periodicity (section a)](https://reader036.vdocument.in/reader036/viewer/2022070510/58a792a81a28ab5f6c8b58a7/html5/thumbnails/7.jpg)
1. Which one of the following diagrams correctly describes the behaviour of a fixed mass of ideal gas? (T is constant.) A B C D
pv
p
pv
p
pv
p
pv
p
![Page 8: Answers To Timed Assignment For Gases, Atomic Structure And Physical Periodicity (section a)](https://reader036.vdocument.in/reader036/viewer/2022070510/58a792a81a28ab5f6c8b58a7/html5/thumbnails/8.jpg)
1. Which one of the following diagrams correctly describes the behaviour of a fixed mass of ideal gas? (T is constant.) A B C D
pv
p
pv
p
pv
p
pv
p
The answer is C
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2. The use of the Data Booklet is relevant in this question.The graph shows the first ionisation energy of five elements in order of increasing proton number.
IE
proton numberWhich option correctly represents the identity of Elements 1, 2, 3, 4 and 5?
1 2 3 4 5A Ti V Cr Mn FeB Al Si P S ClC C N O F NeD P S Cl Ar K
4
1 3
2
5
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2. The use of the Data Booklet is relevant in this question.The graph shows the first ionisation energy of five elements in order of increasing proton number.
IE
proton number
4
1 3
2
5
IE generally increases across the period.
![Page 11: Answers To Timed Assignment For Gases, Atomic Structure And Physical Periodicity (section a)](https://reader036.vdocument.in/reader036/viewer/2022070510/58a792a81a28ab5f6c8b58a7/html5/thumbnails/11.jpg)
2. The use of the Data Booklet is relevant in this question.The graph shows the first ionisation energy of five elements in order of increasing proton number.
IE
proton number
4
1 3
2
5
IE generally increases across the period.
The trend is not followed only at certain points
![Page 12: Answers To Timed Assignment For Gases, Atomic Structure And Physical Periodicity (section a)](https://reader036.vdocument.in/reader036/viewer/2022070510/58a792a81a28ab5f6c8b58a7/html5/thumbnails/12.jpg)
2. The use of the Data Booklet is relevant in this question.The graph shows the first ionisation energy of five elements in order of increasing proton number.
IE
proton number
4
1 3
2
5
IE generally increases across the period.
The trend is not followed only at certain points
Element 5 does not follow the trend and is a lot lower than the rest of the elements.
![Page 13: Answers To Timed Assignment For Gases, Atomic Structure And Physical Periodicity (section a)](https://reader036.vdocument.in/reader036/viewer/2022070510/58a792a81a28ab5f6c8b58a7/html5/thumbnails/13.jpg)
2. The use of the Data Booklet is relevant in this question.The graph shows the first ionisation energy of five elements in order of increasing proton number.
IE
proton number
4
1 3
2
5
IE generally increases across the period.
The trend is not followed only at certain points
Element 5 does not follow the trend and is a lot lower than the rest of the elements.
Element 5 is an element that belongs to a quantum level that is further away.
![Page 14: Answers To Timed Assignment For Gases, Atomic Structure And Physical Periodicity (section a)](https://reader036.vdocument.in/reader036/viewer/2022070510/58a792a81a28ab5f6c8b58a7/html5/thumbnails/14.jpg)
2. The use of the Data Booklet is relevant in this question.The graph shows the first ionisation energy of five elements in order of increasing proton number.
IE
proton numberWhich option correctly represents the identity of Elements 1, 2, 3, 4 and 5?
1 2 3 4 5A Ti V Cr Mn FeB Al Si P S ClC C N O F NeD P S Cl Ar K
4
1 3
2
5
![Page 15: Answers To Timed Assignment For Gases, Atomic Structure And Physical Periodicity (section a)](https://reader036.vdocument.in/reader036/viewer/2022070510/58a792a81a28ab5f6c8b58a7/html5/thumbnails/15.jpg)
2. The use of the Data Booklet is relevant in this question.The graph shows the first ionisation energy of five elements in order of increasing proton number.
IE
proton numberWhich option correctly represents the identity of Elements 1, 2, 3, 4 and 5?
1 2 3 4 5A Ti V Cr Mn FeB Al Si P S ClC C N O F NeD P S Cl Ar K
4
1 3
2
5
![Page 16: Answers To Timed Assignment For Gases, Atomic Structure And Physical Periodicity (section a)](https://reader036.vdocument.in/reader036/viewer/2022070510/58a792a81a28ab5f6c8b58a7/html5/thumbnails/16.jpg)
2. The use of the Data Booklet is relevant in this question.The graph shows the first ionisation energy of five elements in order of increasing proton number.
IE
proton numberWhich option correctly represents the identity of Elements 1, 2, 3, 4 and 5?
1 2 3 4 5A Ti V Cr Mn FeB Al Si P S ClC C N O F NeD P S Cl Ar K
4
1 3
2
5
![Page 17: Answers To Timed Assignment For Gases, Atomic Structure And Physical Periodicity (section a)](https://reader036.vdocument.in/reader036/viewer/2022070510/58a792a81a28ab5f6c8b58a7/html5/thumbnails/17.jpg)
3. An ideal gas exerts a pressure of 60 Pa when its temperature is 400 K and the concentration of the gas is n. Another sample of the same gas exerts a pressure of 30 Pa when its temperature is 300 K. How many molecules are present in unit volume of this second sample?
34n
23n
43n
32nA B C D
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3. An ideal gas exerts a pressure of 60 Pa when its temperature is 400 K and the concentration of the gas is n. Another sample of the same gas exerts a pressure of 30 Pa when its temperature is 300 K. How many molecules are present in unit volume of this second sample?
p V = n R T
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3. An ideal gas exerts a pressure of 60 Pa when its temperature is 400 K and the concentration of the gas is n. Another sample of the same gas exerts a pressure of 30 Pa when its temperature is 300 K. How many molecules are present in unit volume of this second sample?
p V = n R T
Concentration of gas??
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3. An ideal gas exerts a pressure of 60 Pa when its temperature is 400 K and the concentration of the gas is n. Another sample of the same gas exerts a pressure of 30 Pa when its temperature is 300 K. How many molecules are present in unit volume of this second sample?
p V = n R T
Concentration of gas??
= concentration of gasVn
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3. An ideal gas exerts a pressure of 60 Pa when its temperature is 400 K and the concentration of the gas is n. Another sample of the same gas exerts a pressure of 30 Pa when its temperature is 300 K. How many molecules are present in unit volume of this second sample?
p V = n R T
Concentration of gas??
= concentration of gas
=
Vn
RTp
Vn
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3. An ideal gas exerts a pressure of 60 Pa when its temperature is 400 K and the concentration of the gas is n. Another sample of the same gas exerts a pressure of 30 Pa when its temperature is 300 K. How many molecules are present in unit volume of this second sample?
p V = n R T
Concentration of gas??
= concentration of gas
=
=
n =
Vn
RTp
Vn
R40060
R203
![Page 23: Answers To Timed Assignment For Gases, Atomic Structure And Physical Periodicity (section a)](https://reader036.vdocument.in/reader036/viewer/2022070510/58a792a81a28ab5f6c8b58a7/html5/thumbnails/23.jpg)
3. An ideal gas exerts a pressure of 60 Pa when its temperature is 400 K and the concentration of the gas is n. Another sample of the same gas exerts a pressure of 30 Pa when its temperature is 300 K. How many molecules are present in unit volume of this second sample?
p V = n R T
Concentration of gas??
= concentration of gas
=
=
n =
Vn
RTp
Vn
R40060
R203
R remains constant in both cases
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3. An ideal gas exerts a pressure of 60 Pa when its temperature is 400 K and the concentration of the gas is n. Another sample of the same gas exerts a pressure of 30 Pa when its temperature is 300 K. How many molecules are present in unit volume of this second sample?
R =n20
3
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3. An ideal gas exerts a pressure of 60 Pa when its temperature is 400 K and the concentration of the gas is n. Another sample of the same gas exerts a pressure of 30 Pa when its temperature is 300 K. How many molecules are present in unit volume of this second sample?
R =
In the second scenario
30 V = n R (300)
n203
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3. An ideal gas exerts a pressure of 60 Pa when its temperature is 400 K and the concentration of the gas is n. Another sample of the same gas exerts a pressure of 30 Pa when its temperature is 300 K. How many molecules are present in unit volume of this second sample?
R =
In the second scenario
30 V = n R (300)
=
n203
Vn
R30030
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3. An ideal gas exerts a pressure of 60 Pa when its temperature is 400 K and the concentration of the gas is n. Another sample of the same gas exerts a pressure of 30 Pa when its temperature is 300 K. How many molecules are present in unit volume of this second sample?
R =
In the second scenario
30 V = n R (300)
=
=
n203
Vn
R30030
101
320n
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3. An ideal gas exerts a pressure of 60 Pa when its temperature is 400 K and the concentration of the gas is n. Another sample of the same gas exerts a pressure of 30 Pa when its temperature is 300 K. How many molecules are present in unit volume of this second sample?
R =
In the second scenario
30 V = n R (300)
=
=
=
n203
Vn
R30030
101
320n
32n
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3. An ideal gas exerts a pressure of 60 Pa when its temperature is 400 K and the concentration of the gas is n. Another sample of the same gas exerts a pressure of 30 Pa when its temperature is 300 K. How many molecules are present in unit volume of this second sample?
34n
23n
43n
32nA B C D
![Page 30: Answers To Timed Assignment For Gases, Atomic Structure And Physical Periodicity (section a)](https://reader036.vdocument.in/reader036/viewer/2022070510/58a792a81a28ab5f6c8b58a7/html5/thumbnails/30.jpg)
3. An ideal gas exerts a pressure of 60 Pa when its temperature is 400 K and the concentration of the gas is n. Another sample of the same gas exerts a pressure of 30 Pa when its temperature is 300 K. How many molecules are present in unit volume of this second sample?
34n
23n
43n
32nA B C D
![Page 31: Answers To Timed Assignment For Gases, Atomic Structure And Physical Periodicity (section a)](https://reader036.vdocument.in/reader036/viewer/2022070510/58a792a81a28ab5f6c8b58a7/html5/thumbnails/31.jpg)
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5. The following ideas were those underlying John Dalton’s atomic theory, published in 1803.
Which idea is known to be correct?
A Atoms are indivisible.B Atoms are very small.C Atoms of an element are identical.D Atoms of one element always differ in mass from those
or another element.
![Page 36: Answers To Timed Assignment For Gases, Atomic Structure And Physical Periodicity (section a)](https://reader036.vdocument.in/reader036/viewer/2022070510/58a792a81a28ab5f6c8b58a7/html5/thumbnails/36.jpg)
5. The following ideas were those underlying John Dalton’s atomic theory, published in 1803.
Which idea is known to be correct?
A Atoms are indivisible.B Atoms are very small.C Atoms of an element are identical.D Atoms of one element always differ in mass from those
or another element.
![Page 37: Answers To Timed Assignment For Gases, Atomic Structure And Physical Periodicity (section a)](https://reader036.vdocument.in/reader036/viewer/2022070510/58a792a81a28ab5f6c8b58a7/html5/thumbnails/37.jpg)
5. The following ideas were those underlying John Dalton’s atomic theory, published in 1803.
Which idea is known to be correct?
A Atoms are indivisible.B Atoms are very small.C Atoms of an element are identical.D Atoms of one element always differ in mass from those
or another element.
![Page 38: Answers To Timed Assignment For Gases, Atomic Structure And Physical Periodicity (section a)](https://reader036.vdocument.in/reader036/viewer/2022070510/58a792a81a28ab5f6c8b58a7/html5/thumbnails/38.jpg)
5. The following ideas were those underlying John Dalton’s atomic theory, published in 1803.
Which idea is known to be correct?
A Atoms are indivisible.B Atoms are very small.C Atoms of an element are identical.D Atoms of one element always differ in mass from those
or another element.
![Page 39: Answers To Timed Assignment For Gases, Atomic Structure And Physical Periodicity (section a)](https://reader036.vdocument.in/reader036/viewer/2022070510/58a792a81a28ab5f6c8b58a7/html5/thumbnails/39.jpg)
5. The following ideas were those underlying John Dalton’s atomic theory, published in 1803.
Which idea is known to be correct?
A Atoms are indivisible.B Atoms are very small.C Atoms of an element are identical.D Atoms of one element always differ in mass from those
or another element.
![Page 40: Answers To Timed Assignment For Gases, Atomic Structure And Physical Periodicity (section a)](https://reader036.vdocument.in/reader036/viewer/2022070510/58a792a81a28ab5f6c8b58a7/html5/thumbnails/40.jpg)
5. The following ideas were those underlying John Dalton’s atomic theory, published in 1803.
Which idea is known to be correct?
A Atoms are indivisible.B Atoms are very small.C Atoms of an element are identical.D Atoms of one element always differ in mass from those
or another element.
40Ar 40Ca
![Page 41: Answers To Timed Assignment For Gases, Atomic Structure And Physical Periodicity (section a)](https://reader036.vdocument.in/reader036/viewer/2022070510/58a792a81a28ab5f6c8b58a7/html5/thumbnails/41.jpg)
5. The following ideas were those underlying John Dalton’s atomic theory, published in 1803.
Which idea is known to be correct?
A Atoms are indivisible.B Atoms are very small.C Atoms of an element are identical.D Atoms of one element always differ in mass from those
or another element.
![Page 42: Answers To Timed Assignment For Gases, Atomic Structure And Physical Periodicity (section a)](https://reader036.vdocument.in/reader036/viewer/2022070510/58a792a81a28ab5f6c8b58a7/html5/thumbnails/42.jpg)
5. The following ideas were those underlying John Dalton’s atomic theory, published in 1803.
Which idea is known to be correct?
A Atoms are indivisible.B Atoms are very small.C Atoms of an element are identical.D Atoms of one element always differ in mass from those
or another element.