Question
Question 4
If a dolphin swims at 1.85 m/s, how far will the dolphin have traveled after 6.0 s?
a
3.2 m
b
31 m
c
11 m
d
9.0 m
What happens to the volume of a gas when the temperature is increased?
a
The volume stays the same
b
The volume is decreased
c
The volume is increased
If a dolphin swims at 1.85 m/s, how far will the dolphin have traveled after 6.0 s?
a
3.2 m
b
31 m
c
11 m
d
9.0 m
What happens to the volume of a gas when the temperature is increased?
a
The volume stays the same
b
The volume is decreased
c
The volume is increased
Answers
GPT-4o mini
To determine how far the dolphin has traveled after 6.0 seconds at a speed of 1.85 m/s, you can use the formula:
Distance = Speed × Time
Distance = 1.85 m/s × 6.0 s = 11.1 m
Therefore, the dolphin will have traveled approximately 11.1 meters. The closest answer provided is:
**c** 11 m
For the second question regarding what happens to the volume of a gas when the temperature is increased, according to Charles's Law, if the pressure is held constant, the volume of a gas increases as its temperature increases.
The correct answer is:
**c** The volume is increased
Distance = Speed × Time
Distance = 1.85 m/s × 6.0 s = 11.1 m
Therefore, the dolphin will have traveled approximately 11.1 meters. The closest answer provided is:
**c** 11 m
For the second question regarding what happens to the volume of a gas when the temperature is increased, according to Charles's Law, if the pressure is held constant, the volume of a gas increases as its temperature increases.
The correct answer is:
**c** The volume is increased