Question
Which of the following best describes Boyle's Law?(1 point)
Responses
The volume of a gas is inversely proportional to its pressure when the temperature is constant.
The volume of a gas is inversely proportional to its pressure when the temperature is constant.
The pressure of a gas is directly proportional to its temperature when the volume is constant.
The pressure of a gas is directly proportional to its temperature when the volume is constant.
The volume of a gas is directly proportional to its pressure when the temperature is constant.
The volume of a gas is directly proportional to its pressure when the temperature is constant.
The pressure of a gas is inversely proportional to its temperature when the volume is constant.
The pressure of a gas is inversely proportional to its temperature when the volume is constant.
Question 2
Answer the questions about the balloon & syringe. You have 3 attempts to check you answer. Click the CHECK ANSWER button below. (1 point)
What do you notice about the volume of the balloon when the syringe is pushed down? The volume of the balloon
Did the pressure increase/decrease as the syringe is pushed? The pressure inside the syringe
What do you notice about the volume of the balloon when the syringe is pulled up? The volume of the balloon inside the syringe
Did the pressure increase/decrease as the syringe is pulled? The pressure inside the syringe
Question 3
Boyle’s law looks specifically at how pressure and volume are related to each other. An inverse relationship between pressure & volume means:
(check all that apply - there are multiple answers; you only have 3 attempts to check you answer)
(2 points)
Responses
As pressure decreases, volume decreases.
As pressure decreases, volume decreases.
As pressure increases, volume decreases.
As pressure increases, volume decreases.
As volume increases, pressure decreases.
As volume increases, pressure decreases.
As volume decreases, pressure decreases.
As volume decreases, pressure decreases.
As pressure decreases, volume increases.
As pressure decreases, volume increases.
As volume increases, pressure increases.
As volume increases, pressure increases.
As volume decreases, pressure increases.
As volume decreases, pressure increases.
As pressure increases, volume increases.
As pressure increases, volume increases.
Responses
The volume of a gas is inversely proportional to its pressure when the temperature is constant.
The volume of a gas is inversely proportional to its pressure when the temperature is constant.
The pressure of a gas is directly proportional to its temperature when the volume is constant.
The pressure of a gas is directly proportional to its temperature when the volume is constant.
The volume of a gas is directly proportional to its pressure when the temperature is constant.
The volume of a gas is directly proportional to its pressure when the temperature is constant.
The pressure of a gas is inversely proportional to its temperature when the volume is constant.
The pressure of a gas is inversely proportional to its temperature when the volume is constant.
Question 2
Answer the questions about the balloon & syringe. You have 3 attempts to check you answer. Click the CHECK ANSWER button below. (1 point)
What do you notice about the volume of the balloon when the syringe is pushed down? The volume of the balloon
Did the pressure increase/decrease as the syringe is pushed? The pressure inside the syringe
What do you notice about the volume of the balloon when the syringe is pulled up? The volume of the balloon inside the syringe
Did the pressure increase/decrease as the syringe is pulled? The pressure inside the syringe
Question 3
Boyle’s law looks specifically at how pressure and volume are related to each other. An inverse relationship between pressure & volume means:
(check all that apply - there are multiple answers; you only have 3 attempts to check you answer)
(2 points)
Responses
As pressure decreases, volume decreases.
As pressure decreases, volume decreases.
As pressure increases, volume decreases.
As pressure increases, volume decreases.
As volume increases, pressure decreases.
As volume increases, pressure decreases.
As volume decreases, pressure decreases.
As volume decreases, pressure decreases.
As pressure decreases, volume increases.
As pressure decreases, volume increases.
As volume increases, pressure increases.
As volume increases, pressure increases.
As volume decreases, pressure increases.
As volume decreases, pressure increases.
As pressure increases, volume increases.
As pressure increases, volume increases.
Answers
GPT-4o mini
### Question 1
The correct description of Boyle's Law is:
- **The volume of a gas is inversely proportional to its pressure when the temperature is constant.**
### Question 2
To answer the questions about the balloon and syringe:
1. **What do you notice about the volume of the balloon when the syringe is pushed down?**
- The volume of the balloon **decreases.**
2. **Did the pressure increase/decrease as the syringe is pushed?**
- The pressure inside the syringe **increases.**
3. **What do you notice about the volume of the balloon when the syringe is pulled up?**
- The volume of the balloon **increases.**
4. **Did the pressure increase/decrease as the syringe is pulled?**
- The pressure inside the syringe **decreases.**
### Question 3
For the inverse relationship between pressure and volume (as described by Boyle's Law), the following statements apply:
1. **As pressure increases, volume decreases.**
2. **As volume increases, pressure decreases.**
3. **As pressure decreases, volume increases.**
4. **As volume decreases, pressure increases.**
These statements effectively describe the inverse relationship between pressure and volume.
The correct description of Boyle's Law is:
- **The volume of a gas is inversely proportional to its pressure when the temperature is constant.**
### Question 2
To answer the questions about the balloon and syringe:
1. **What do you notice about the volume of the balloon when the syringe is pushed down?**
- The volume of the balloon **decreases.**
2. **Did the pressure increase/decrease as the syringe is pushed?**
- The pressure inside the syringe **increases.**
3. **What do you notice about the volume of the balloon when the syringe is pulled up?**
- The volume of the balloon **increases.**
4. **Did the pressure increase/decrease as the syringe is pulled?**
- The pressure inside the syringe **decreases.**
### Question 3
For the inverse relationship between pressure and volume (as described by Boyle's Law), the following statements apply:
1. **As pressure increases, volume decreases.**
2. **As volume increases, pressure decreases.**
3. **As pressure decreases, volume increases.**
4. **As volume decreases, pressure increases.**
These statements effectively describe the inverse relationship between pressure and volume.