Teaching Students Risk and Decision-Making Skills

Students are often taught that the answer is either right or wrong.

Teaching Students Risk and Decision-Making Skills

As a teacher, you’ve probably heard the objection, ‘But how is this relevant to real life?’ from your students more than once.

The truth is that students are indeed trained to mainly memorize factual information. While all of this has its value, today’s market suggests there may be shortcomings in preparing students for future challenges. 

Students are taught that the answer is either right or wrong. But when it comes to economics, knowledge is not enough. To run a successful business career, one must develop additional skills and a greater awareness of market realities. This is where the definition of critical thinking and balanced, thoughtful decision-making skills pay off. 

As all job positions participate in economic dynamics, it is useful to teach students those skills not just in economics and math but also in other subjects.  

Critical Thinking in History

What challenge or dilemma was the political figure facing? What were the facts, and what was uncertain?

-What were the chances of success or failure?

-What were the pros and cons of each option? What consequences were attached to them?

-Was the decision reasonable, given the circumstances? What could have been done differently?

This approach helps students better understand the complexity of past struggles and the consequences associated with them. They learn that real-life situations are rarely black-and-white and that making decisions often requires carefully weighing all the factors involved.

They come to see that, in critical moments, the goal is to choose the most feasible option available. By challenging the illusion that life is risk- and cost-free, this perspective encourages students to strengthen their critical thinking skills and make the best possible decisions when facing difficulties.

Grounding Science

Let’s be realistic: scientific knowledge in schools is a strong foundation for further expansion in biological, chemical, and physical knowledge.

However, the reality of a scientist is not dealing with and confirming unchanging facts, but identifying the most probable outcome based on the current state of knowledge. This approach requires the skill of using the knowledge thus far obtained to assess the hypothesis that is most likely to prove true. 

To help students develop this kind of scientific reasoning, they should gain a better understanding of how well-known scientists approached the research process. The following questions can support a critical assessment of scientific discoveries:

-What was known at the time about genetics/evolution/ecology/X?

-What did Mendel/ Charles Darwin/X hypothesize?

-How did they justify or support their hypotheses?

-How did they confirm their hypothesis?

Another useful practice is to let students design an engineering prototype or predict genetic outcomes. Since manual calculation can sometimes bog down the conceptual learning, digital tools become essential scaffolds. By utilizing a probability calculator, students can instantly model different scenarios. 

Learning from literature

Literature is driven by conflict, and conflict is usually the result of a character taking a risk. When analyzing a novel, move beyond standard character traits and look at their risk profile.

Ask students about the character’s motive, the circumstances, and how it influenced the story’s outcome. You can also gamify this by asking students to bet on plot outcomes before they finish the book. Have them write a justification for their prediction while using textual evidence to support it. 

Financial decision-making

Although budgeting is a fundamental skill, students should also learn more about the realities of the market. Predictability has its limits, and financial decisions often involve a trade-off between safe, stable budgeting and riskier investments with the potential for higher returns. Students can develop a better understanding of this balance by reflecting on questions such as:

-What are the pros and cons of each approach?

-What factors need to be considered when making a financial decision?

-How can you assess or estimate the risk involved in a particular choice?

After completing the activity, students may evaluate how their results compare across different scenarios. They may use a percentage difference calculator to quickly identify how much two values differ. This reinforces analytical thinking rather than manual computation.

Conclusion

When we teach students to search for the one right answer, we teach compliance, but when we teach them to assess risk and navigate uncertainty, we foster their internal capacity to grow. By incorporating this notion into history, science, and literature, we equip students to deal with the complexities of reality and that all decisions come at a cost.