What three conditions have to be met in order to make statements about causality?

While establishing causality is a cornerstone of scientific research, it's crucial to remember that it's not always a straightforward process. Although no single condition guarantees definitive proof, there are three key criteria that, when met together, strengthen the evidence for a causal relationship:

1. Covariance: This means that the two variables you're studying must change together in a predictable way. For example, if you're investigating the potential link between exercise and heart health, you'd need to observe that people who exercise more tend to have lower heart disease risk compared to those who exercise less.

2. Temporal precedence: The presumed cause (independent variable) must occur before the observed effect (dependent variable). In simpler terms, the change in the independent variable needs to happen before the change in the dependent variable. For example, if you want to claim that exercising regularly lowers heart disease risk, you need to ensure that the increase in exercise frequency precedes the decrease in heart disease risk, and not vice versa.

3. Elimination of alternative explanations: This is arguably the most challenging criterion. Even if you observe a covariance and temporal precedence, other factors (besides the independent variable) could be influencing the dependent variable. Researchers need to carefully consider and rule out these alternative explanations as much as possible to strengthen the case for causality. For example, in the exercise and heart disease example, factors like diet, genetics, and socioeconomic status might also play a role in heart health, so these would need to be controlled for or accounted for in the analysis.

Additional considerations:

  • Strength of the association: A strong covariance between variables doesn't automatically imply a causal relationship. The strength of the association (e.g., the magnitude of change in the dependent variable for a given change in the independent variable) is also important to consider.
  • Replication: Ideally, the findings should be replicated in different contexts and by different researchers to increase confidence in the causal claim.

Remember: Establishing causality requires careful research design, rigorous analysis, and a critical evaluation of all potential explanations. While the three criteria mentioned above are crucial, it's important to interpret causal claims cautiously and consider the limitations of any research study.

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What are the percentile and percentile rank?

What are the percentile and percentile rank?

 
The terms percentile and percentile rank are sometimes used interchangeably, but they actually have slightly different meanings:

Percentile:

  • A percentile represents a score that a certain percentage of individuals in a given dataset score at or below. For example, the 25th percentile means that 25% of individuals scored at or below that particular score.
  • Imagine ordering all the scores in a list, from lowest to highest. The 25th percentile would be the score where 25% of the scores fall below it and 75% fall above it.
  • Percentiles are often used to describe the distribution of scores in a dataset, providing an idea of how scores are spread out.

Percentile rank:

  • A percentile rank, on the other hand, tells you where a specific individual's score falls within the distribution of scores. It is expressed as a percentage and indicates the percentage of individuals who scored lower than that particular individual.
  • For example, a percentile rank of 80 means that the individual scored higher than 80% of the other individuals in the dataset.
  • Percentile ranks are often used to compare an individual's score to the performance of others in the same group.

Here's an analogy to help understand the difference:

  • Think of a classroom where students have taken a test.
  • The 25th percentile might be a score of 70. This means that 25% of the students scored 70 or lower on the test.
  • If a particular student scored 85, their percentile rank would be 80. This means that 80% of the students scored lower than 85 on the test.

Key points to remember:

  • Percentiles and percentile ranks are both useful for understanding the distribution of scores in a dataset.
  • Percentiles describe the overall spread of scores, while percentile ranks describe the relative position of an individual's score within the distribution.
  • When interpreting percentiles or percentile ranks, it's important to consider the context and the specific dataset they are based on.
Understanding data: distributions, connections and gatherings
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21-01-2019

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