Part 2: Use the RAD method to answer the question and provide specific textual evidence to support your analysis.Based on the article, what do scientists need in order to determine the long-term effects of climate change on the development of tropical storms
R: Scientists need long-term data on tropical storms and the associated climate conditions to determine the effects of climate change on their development.
A: The article explains that scientists require historical records of tropical storms and their intensities, as well as corresponding climate data, in order to analyze long-term trends and establish potential connections with climate change. According to James Elsner, a professor at Florida State University, examining past storm records is crucial to understand the baseline norms and characteristics that can help detect any shifts or deviations caused by climate change. For example, the article mentions that scientists have discovered an increase in the number of rapidly intensifying hurricanes, defined as storms that gain strength by at least 35 mph in 24 hours. This finding is a result of examining long-term records and developing statistical models that link these patterns to climate change.
D: Additionally, the article suggests that scientists need climate models to predict future changes in storm patterns. These models simulate various climate scenarios based on different greenhouse gas emission levels, allowing scientists to assess the potential impact of climate change on tropical storm development. By comparing these models with observed data, researchers can refine their predictions and understand how storm behavior may evolve in the coming decades.
In conclusion, scientists need long-term records of tropical storms and associated climate data to determine the effects of climate change on their development. By analyzing these historical records and using climate models to predict future changes, researchers can establish the link between climate change and tropical storm patterns, helping to anticipate and mitigate the potential impacts of climate change on these extreme weather events.
To answer the question using the RAD method, we first need to understand what the RAD method is. RAD stands for Read, Analyze, and Determine.
1. Read: Let's start by reading the article to gather information about what scientists need to determine the long-term effects of climate change on the development of tropical storms.
2. Analyze: After reading the article, we need to analyze the information and identify specific textual evidence that supports the analysis.
3. Determine: Based on the analysis, we can determine what scientists need to determine the long-term effects of climate change on the development of tropical storms.
Now, let's apply the RAD method and find the answer.
1. Read: According to the article, scientists need a combination of observational data, computer models, and climate projections to determine the long-term effects of climate change on the development of tropical storms.
2. Analyze: The phrase "combination of observational data, computer models, and climate projections" implies that scientists require a diverse range of tools and methods to study the long-term effects of climate change on tropical storms. Observational data allows scientists to examine historical weather patterns and track changes over time. Computer models help simulate and predict future weather conditions through complex algorithms. Climate projections provide information about how climate change may affect the frequency, intensity, and behavior of tropical storms.
3. Determine: Based on the analysis, scientists need a combination of observational data, computer models, and climate projections to determine the long-term effects of climate change on the development of tropical storms.
In conclusion, scientists need a combination of observational data, computer models, and climate projections to determine the long-term effects of climate change on the development of tropical storms. This information was gathered from the analysis of the article.
To answer this question using the RAD method (Read, Ask, Do), we will start by reading the article to gather relevant information. Then, we will ask ourselves what scientists need to determine the long-term effects of climate change on tropical storms. Lastly, we will do a search in the article for specific textual evidence that supports our analysis.
Step 1: Read the article.
Look for information about what scientists need to determine the long-term effects of climate change on tropical storms.
Step 2: Ask yourself the question.
What do scientists need in order to determine the long-term effects of climate change on the development of tropical storms?
Step 3: Do a search for textual evidence.
Scan the article for any information that answers the question. Look for specific details or statements that indicate what scientists need.
Here is an example of how you can use the RAD method to answer the question based on the article:
Step 1: Read the article.
Upon reading the article, you come across a section that discusses the requirements for determining the long-term effects of climate change on tropical storms.
Step 2: Ask yourself the question.
What do scientists need in order to determine the long-term effects of climate change on the development of tropical storms?
Step 3: Do a search for textual evidence.
You find a paragraph that states, "In order to determine the long-term effects of climate change on tropical storms, scientists need accurate historical data on storm intensity, frequency, and duration. This data is crucial for establishing trends and patterns that can be analyzed in relation to climate change factors."
The specific textual evidence states that scientists need accurate historical data on storm intensity, frequency, and duration. This data is crucial for establishing trends and patterns that can be analyzed regarding climate change factors.
Therefore, according to the information provided in the article, scientists need accurate historical data on storm intensity, frequency, and duration to determine the long-term effects of climate change on tropical storms.