D. In a longitudinal wave, particle displacement is parallel to the direction of wave motion. Hope I helped!
The terminology is somewhat arbitrary, however, In this case, you intentionally alter the angle, which then determines the resulting distance. The presumption of the experiment is that distance is DEPENDENT on the angle. The dependent variable will be the how far the rock went. The dependent variable is the variable that you are testing. The first sentence of description indicates that the experiment is to determine launch Θ vs range.The largest range value is to be determined, so the range is plotted on the Y-axis. Angle Θ is plotted on the X-axis. The distance depends on the launch of the angle so the answer will be (D) how far the rock went. It is the dependent variable.
Answer:
1.0563408 N
Explanation:
= Density of air = 0.8 kg/m³
g = Acceleration due to gravity = 9.81 m/s²
h = Altitude
A = Area = 0.5 cm²
Pressure
Pressure
The net force on your ear is 1.0563408 N
Hello,
Here is your answer:
The proper answer to this question is that you find the velocity by "you have to divide the distance by time of the object".
If you need anymore help feel free to ask me!
Hope this helps!