Does this mean all scientists follow exactly this process? Some areas of science can be more easily tested than others.
For example, scientists studying how stars change as they age or how dinosaurs digested their food cannot fast-forward a star's life by a million years or run medical exams on feeding dinosaurs to test their hypotheses.
Now more than ever, it is vitally important for students to learn how to evaluate the massive amount of information available as well as new facts that will certainly be discovered in the future.
Critical thinking skills are not only essential for interpreting and analyzing data and information but in making productive decisions regarding one’s life.
This same method can be used to organize one’s plans, thoughts, and to solve problems in everyday life.
Young children do this naturally when throwing food from their high chair to see what happens, or by building block towers and knocking them down.
It is important to encourage children to use all their senses to observe the world and freely ask questions to support their learning.
Let’s explore how we can take a question a child might ask such as, “Will ants eat my cereal? The second step is to make a prediction or theory which is usually based on an educated guess.
The question therefore arises: How can we guide our children so that they develop critical thinking skills?
Contemporary science curriculum introduces students to the Scientific Method, a process of inquiry that follows a series of steps to predict, verify, or refute a hypothesis or theory.