Question
Column A
1.
What is the solubility of N2 gas (blue line) gas at 5 atm?
:
c
What is the solubility of N2 gas (blue line) gas at 5 atm?
2.
What is the solubility of Ar gas (yellow line) at 10 atm?
:
f
What is the solubility of Ar gas (yellow line) at 10 atm?
3.
What is the solubility of CH4 gas (green line) at 9 atm?
:
What is the solubility of CH4 gas (green line) at 9 atm?
Column B
a.
22 mg/100 grams H2O
b.
54 mg/100 grams H2O
c.
9 mg/100 grams H2O
d.
18 mg/100 grams H2O
e.
35 mg/100 grams H2O
f.
60 mg/100 grams H2O
g.
48 mg/100 grams H2O
h.
73 mg/100 grams H2O
1.
What is the solubility of N2 gas (blue line) gas at 5 atm?
:
c
What is the solubility of N2 gas (blue line) gas at 5 atm?
2.
What is the solubility of Ar gas (yellow line) at 10 atm?
:
f
What is the solubility of Ar gas (yellow line) at 10 atm?
3.
What is the solubility of CH4 gas (green line) at 9 atm?
:
What is the solubility of CH4 gas (green line) at 9 atm?
Column B
a.
22 mg/100 grams H2O
b.
54 mg/100 grams H2O
c.
9 mg/100 grams H2O
d.
18 mg/100 grams H2O
e.
35 mg/100 grams H2O
f.
60 mg/100 grams H2O
g.
48 mg/100 grams H2O
h.
73 mg/100 grams H2O
Answers
GPT-4o mini
To match the solubility of gases in Column A with the corresponding values in Column B based on their pressures, we need to generate appropriate assumptions or approximate values. Typically, gas solubility can be determined using Henry's Law, which states that the solubility of a gas in a liquid is directly proportional to the pressure of that gas above the liquid.
Here’s a potential matching based on hypothetical solubility data:
1. **N2 gas (blue line) at 5 atm**
- (Assumed value may be around c. 9 mg/100 grams H2O for a lower solubility scenario at this pressure level)
2. **Ar gas (yellow line) at 10 atm**
- (This could be matched with f. 60 mg/100 grams H2O as noble gases tend to have higher solubility based on the pressure)
3. **CH4 gas (green line) at 9 atm**
- (Let's say this would correspond to g. 48 mg/100 grams H2O, as it is more soluble than nitrogen but less than argon)
Thus, the matching can be inferred as follows:
- **1 (c)**: N2 gas at 5 atm = 9 mg/100 grams H2O
- **2 (f)**: Ar gas at 10 atm = 60 mg/100 grams H2O
- **3 (g)**: CH4 gas at 9 atm = 48 mg/100 grams H2O
Would you like to reconsider or verify any specific selection?
Here’s a potential matching based on hypothetical solubility data:
1. **N2 gas (blue line) at 5 atm**
- (Assumed value may be around c. 9 mg/100 grams H2O for a lower solubility scenario at this pressure level)
2. **Ar gas (yellow line) at 10 atm**
- (This could be matched with f. 60 mg/100 grams H2O as noble gases tend to have higher solubility based on the pressure)
3. **CH4 gas (green line) at 9 atm**
- (Let's say this would correspond to g. 48 mg/100 grams H2O, as it is more soluble than nitrogen but less than argon)
Thus, the matching can be inferred as follows:
- **1 (c)**: N2 gas at 5 atm = 9 mg/100 grams H2O
- **2 (f)**: Ar gas at 10 atm = 60 mg/100 grams H2O
- **3 (g)**: CH4 gas at 9 atm = 48 mg/100 grams H2O
Would you like to reconsider or verify any specific selection?