How to Improve Study Habits and Develop Better Learning Skills: 10 Simple but Powerful ways 

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Learning is a continuous task that calls for effort and willpower. Improving study habits and developing better learning skills can help learners attain their educational goals and reach their careers.

Scientists have found the best ways to learn something quickly and effectively. The studies have determined strategies to help students or learners grasp and apply a concept to daily life.

How to Improve Study Habits and Develop Better Learning Skills

Here are ten ways to improve study habits and develop better learning skills:

1. Set Specific Goals

If you do not have plans, then you are losing out. Not only that goals create a sense of direction, they give you focus. Goals are the basics of any project. Studies have shown that goal setting improves academic performance (Latham & Locke, 2007). By setting specific goals, learners can prioritize and work towards achieving their tasks. Goals can help learners stay motivated and focused, leading to better learning outcomes. Goals also help you follow a determined path and evaluate the end product.

Therefore, establishing specific, measurable, achievable, relevant, and time-bound (SMART) goals is necessary. SMART will help you set achievable goals and quickly evaluate results.

2. Create a Study Schedule

A consistent study schedule increases productivity and makes studying a habit. For example, if you have a one-hour program in the evening between 8 and 9, your mind will learn to stick to the schedule with repetition.

Research suggests spacing out study sessions and reviewing study materials can improve retention (Karpicke & Roediger, 2007). Instead of cramming long hours of a single study, scheduling your time by spacing out various study sessions reduces fatigue.

Therefore, by creating a study schedule, learners can allocate dedicated time for learning and revision, avoid cramming and retain information better.

3. Find a Suitable Study Environment

A conducive environment is essential for effective studying, as it can reduce distractions and improve attention. According to Kuo and Sullivan’s (2001) research, environmental elements, including lighting and noise tiers, can notably affect one’s ability to analyze.

Therefore, it is miles essential for learners to find appropriate surroundings that align with their learning needs and help their learning goals. By developing an atmosphere that optimizes their getting-to-know experience, individuals are more likely to stay focused, engaged, and inspired for their study session. Additionally, favorable surroundings can improve long-lasting study habits, leading to academic success, fulfillment, and personal growth.

4. Take Breaks

Taking regular breaks during study sessions can significantly improve study planning and retention. Research shows that short intervals between study sessions can help reduce fatigue and increase productivity (Marshall et al., 2012). Breaks also avoid burnouts that sometimes appear in many students.

It is important to note that different breaks can be taken during study sessions. For example, students can take a short walk, practice mindfulness, or do light stretching exercises. These breaks can help refresh the mind and relax the body.

Moreover, taking regular breaks during class can also have other benefits. For instance, it can help students focus better on the presented material. By taking a few minutes to clear their minds and recharge, students can return to their studies with renewed energy and concentration.

In conclusion, regular breaks during study sessions and classes can significantly positively affect a student’s academic performance. Students can improve their retention, reduce burnout, and increase productivity by planning for and incorporating these breaks into their study routines.

5. Use Active Learning Strategies

Active learning strategies such as summarizing, self-exam, and elaboration can enhance content retention and comprehension. Research has shown that active intervention improves instructional performance (Freeman et al., 2014).

Summarization is a way to reduce information overload and lessen it to a more commendable length. It requires active engagement with the material and might help students pick out key points and ideas.

Self-assessment is another tool that tests a subject’s understanding, improving retention and comprehension. By self-assessing students in the path, they will be able to become aware of regions that want interest and gain a higher know-how of the cloth.

Elaboration is another powerful way of gaining strategy knowledge that could enhance content retention and comprehension. Elaboration entails making connections among different data and information. ALS can help students memorize the subject by helping the brain create associations.

Active learning strategies are a powerful tool for enhancing content retention and comprehension. By enticing college students with the cloth and using strategies that include summaries, self-evaluation, and elaboration, students can broaden their profound expertise of the material and be more organized for assessments and actual-global packages.

6. Minimize Distractions

Distractions such as social media and the media can reduce productivity and increase cognitive load. When students have to switch tasks, the cognitive load increases, and they may struggle to retain information. Research suggests multitasking can negatively affect learning and retention (Foerde et al., 2006). Students will be able to better focus on their knowledge and avoid cognitive overload by removing destractions Tools like web blockers that limit access to distractions, turn off notifications during class, add a quiet place for students to focus, and students can use techniques like timelines and priorities to ensure they have enough time allotted for studying. By following these strategies, students can create an environment of focus and concentration, encouraging better learning outcomes and information retention.

7. Get Enough Sleep

Getting enough sleep improves cognitive function, academic performance, and overall mental health.

Many people need a better preassumption about the importance of sleep for productivity. Many assume that the more they stay late, the more they accomplish. However, that is only sometimes true. Rest is very much associated with memory and cognitive function. Many studies show that inadequate sleep or sleep deprivation adversely affects learning and academic performance (Curcio et al., 2006).

Therefore, students need to get sufficient sleep to help consolidation of learning and enhancement cognitive function. Better sleep ultimately leads to better academic performance. Ample sleep is also part of a healthy, active lifestyle and quality of life. Good sleep is also about patterns. Balanced sleeping patterns reduce the risk of developing mental health issues and improve brain function.

8. Stay Hydrated and Nourished

Dehydration affects cognitive performance (Ganio et al., 2011). Dehydration is one of the reasons many students get headaches and other issues in the body. It is necessary to stay hydrated to optimize cognitive function and improve learning outcomes. Adults should consume up to 3 liters of water daily.

A balanced diet also impacts academic performance (Wachs & Cordova, 2018). Nutrient-rich foods like fruits, vegetables, and whole grains fuel the body to succeed. On the contrary, sugar and processed foods are the main reasons for cognitive fatigue and decreased performance.

Therefore, simple daily lifestyle changes, such as drinking enough water and eating a balanced diet, help learners improve their cognitive function and learning outcomes.

9. Collaborate with Others

Collaborating with peers is highly beneficial for learning. In addition to providing different perspectives, it helps learners to consolidate their knowledge. Collaboration often encourages debates and intellectual discussions leading to academic performance and critical thinking (Johnson et al., 1998). It also creates a space for exchanging ideas, sharing experiences and insights. Students can learn from each other’s strengths and weaknesses, and expertise.

Therefore, collaboration with peers creates a better chance of success and other life skills such as teamwork, communication, and leadership.

10. Seek Feedback and Reflect

Research has found that reflecting on learning experiences can improve metacognition and academic performance (Schraw et al., 2006). Feedback enhances the existing system or ability of a learner. It is important to seek feedback from peers, instructors, or mentors to encourage improvement and gain a new perspective on one’s work and see a different perspective.

Furthermore, receiving input from multiple sources creates a better perspective and a developed pattern in one’s study, creating a more comprehensive understanding of the subject and context.

Final thoughts on How to Improve Study Habits and Develop Better Learning Skills

In conclusion, developing better study habits and learning skills is a continuous process that requires effort and dedication. By setting specific goals, creating a study schedule, finding a suitable study environment, taking breaks, using active learning strategies, minimizing distractions, getting enough sleep, staying hydrated and nourished, collaborating with others, and seeking feedback and reflecting, learners can optimize their cognitive function and improve their academic performance. By following these strategies, learners can enhance their learning experience, achieve their educational goals, and reach their career aspirations.



Curcio, G., Ferrara, M., & De Gennaro, L. (2006). Sleep loss, learning capacity, and academic performance. Sleep Medicine Reviews, 10(5), 323-337.

Foerde, K., Knowlton, B. J., & Poldrack, R. A. (2006). Modulation of competing memory systems by distraction. Proceedings of the National Academy of Sciences, 103(31), 11778-11783.

Freeman, S., Eddy, S. L., McDonough, M., Smith, M. K., Okoroafor, N., Jordt, H., & Wenderoth, M. P. (2014). Active learning increases student performance in science, engineering, and mathematics. Proceedings of the National Academy of Sciences, 111(23), 8410–8415.

Ganio, M. S., Armstrong, L. E., Casa, D. J., McDermott, B. P., Lee, E. C., Yamamoto, L. M., … & Lieberman, H. R. (2011). Mild dehydration impairs the cognitive performance and mood of men. British Journal of Nutrition, 106(10), 1535–1543.

Johnson, D. W., Johnson, R. T., & Smith, K. A. (1998). Cooperative learning returns to college. What evidence is there that it works? Change: The magazine of higher learning, 30(4), 26–35.

Karpicke, J. D., & Roediger III, H. L. (2007). Expanding retrieval practice promotes short-term retention, but equally spaced retrieval enhances long-term retention—Journal of Experimental Psychology: Learning, Memory, and Cognition, 33(4), 704.

Kuo, F. E., & Sullivan, W. C. (2001). Aggression and Violence in the Inner City: Effects of Environment via Mental Fatigue. Environment and Behavior, 33(4), 543–571.

Latham, G. P., & Locke, E. A. (2007). New developments in and directions for goal-setting research. European Psychologist, 12(4), 290–300.

Marshall, J. G., Larrick, R. P., Soll, J. B., & Donnelly, K. (2012). Rate‐as‐you‐go: A new approach to eliciting time preferences. Journal of Behavioral Decision Making, 25(5), 484–492.

Schraw, G., Crippen, K. J., & Hartley, K. (2006). Promoting self-regulation in science education: Metacognition as part of a broader perspective on learning. Research in Science Education, 36(1-2), pp. 111–139.

Wachs, F. L., & Cordova, J. R. (2018). Healthy eating patterns and academic achievement: A review. Nutrients, 10(7), 904.



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