Understanding the Steps In Scientific Research

Published
<h3>Understanding the Steps In Scientific Research</h3>

Because science offers a way to answer questions about the cosmos in a clear, rational manner, with evidence to support it, a reliable procedure is necessary in order to obtain the best information. That procedure is commonly called the scientific method and consists of the following eight steps: observation, asking a question, gathering information, forming a hypothesis, testing the hypothesis, making conclusions, reporting, and evaluating.

History

<h3>Understanding the Steps In Scientific Research</h3>



The ancient Greek Aristotle was the first to propose observation and measurement as a method to gain knowledge about the world. In subsequent centuries thinkers would refine these ideas, notably the Islamic scholar Ibn al-Haytham, who developed an early form of the scientific method, and Galileo, who stressed the importance of testing for variables in experiments.

Observation

Male And Female Scientists Using Microscopes In Laboratory

The first step of the scientific method is the observation of a phenomenon, which results in the second step: the question of why said phenomenon occurs. After gathering a sufficient amount of appropriate information on the subject at hand, a hypothesis (educated guess) can be formulated.

Experimentation

Pupils (11-13) wearing goggles watching experiment in science class



The hypothesis must then be tested by conducting an experiment, which should prove whether the guess is true or false. To make sure that any resulting data will be accurate, the experiment should be repeated several times, taking variables into account.

Conclusion

Biologist sitting in laboratory

Only once the resulting data has been analyzed can a conclusion be drawn. Even once a conclusion is made, it should be reported, after which point it will be necessary to evaluate the conclusion by looking for any potential errors in the procedure and determining a follow-up question to find out more about the phenomenon.



Aftermath

scientists analyzing formulas in lab

Sometimes the continued inspection of a phenomenon through new observations and experiments can result in the development of a theory, which can be applied to other unrelated areas but may be changed if new evidence surfaces. A theory can become a law when it is universal and cannot be changed over time.

Dave Pennells

By Dave Pennells

Dave Pennells, MS, has contributed his expertise as a career consultant and training specialist across various fields for over 15 years. At City University of Seattle, he offers personal career counseling and conducts workshops focused on practical job search techniques, resume creation, and interview skills. With a Master of Science in Counseling, Pennells specializes in career consulting, conducting career assessments, guiding career transitions, and providing outplacement services. Her professional experience spans multiple sectors, including banking, retail, airlines, non-profit organizations, and the aerospace industry. Additionally, since 2001, he has been actively involved with the Career Development Association of Australia.