A scientist has chosen to study the motion of clouds in the atmosphere during a thunderstorm. Which type of model is most appropriate for her investigation?
A. Computer simulation
B. Equation
C. Map
D. Graph
Answer (3)
This is sort of more of an opinionated question I feel, but the answer I would go with would be A. Computer Simulation. Reasons: B. Equation would maybe help her calculate the rate (speed) at which the clouds are moving, but it does not actually show her the motion of the clouds, which is what she wants to study. C. Map would allow her a visual representation of countries, not a visual representation of clouds in a thunderstorm. D. Graph, again, would show her a visual of the rates (speeds) of the clouds moving, but she would not be able to see the actual motion of the clouds. I say A because it allows her to see a visual diagram of the clouds moving, which she can then track how fast, how often, etc. the clouds are moving in the thunderstorm.
**Computer simulation **is the type of model is most appropriate for her investigation. As A scientist , has chosen to study the **motion **of clouds in the atmosphere during a thunderstorm . Hence, option **A **is correct.
What is Computer simulation?
Computer simulation is the technique of **simulating **another system's **behavior **in order to replicate a first system's **dynamic **responses. In a simulation, computer software is used to represent an **actual system **with a **mathematical **model or description .
Most of us are familiar with certain uses for **computer **simulation modeling, like **forecasting **the weather, training simulators for pilots, and **simulating **car crashes. Simulation systems come in a **variety **of forms, including dynamic simulation , process simulation, and discrete event simulation .
Thus, option **A, Computer simulation, **is correct.
For more details about **Computer simulation, **click here:
https://brainly.com/question/15369419
#SPJ2
The best model for studying the motion of clouds in a thunderstorm is A. Computer simulation . This method allows for the incorporation of complex variables and dynamic behavior, enabling effective analysis and forecasting of atmospheric phenomena. Overall, computer simulations are essential for understanding complex systems like weather patterns.
;
