Much like other natural sciences, physics is based on rational discussions, experimental evidence, and criticism. Since physics provides us with knowledge of the physical world, practical physics is needed for us to ground this knowledge. Although practical physics is arguably essential, there has been a long-standing debate about its educational aims and the purpose of learning.
Here are a few reasons why practical physics is essential to studying science.
1. Understanding concepts and principles
The essence of learning physics revolves around experimentation. With experimentation, students can enhance their learning of physics through an understanding of the disciplines’ theoretical concepts. Many students can test their ideas and theories, which is crucial to cultivating problem-solving strategies and allow them to understand different concepts and principles.
Many students find their early learning for concepts difficult and practical physics bridges that gap easily. Students are able to interact further, dive deep into the experiment and get more conscious about taking responsibility with their learning.
2. Connecting the ‘Hands-On’ to ‘Brains-On’
Effective practical physics enable learners to understand the connection between what can be seen and handled (hands-on) and scientific ideas that inform their observations (brains-on). Through practical activities, it is much easier to thread the connection between actions and observations.
Practical activities should be planned and tailored to aid students in achieving desired aims and outcomes with other students. By allowing them to use ideas drawn from the observed phenomena, it enables students to make useful connections between scientific concepts of what can be seen and handled.
3. Contributes to the acquisition of personal and professional skills
Practical physics contributes immensely to students’ acquisition and understanding of risks and hazards of a typical working environment. With A level physics tuition that is appropriately crafted, practical activities can prove essential in enhancing effective communication and teamwork among students in group projects.
Apart from that, practical physics goes a long way in developing learners’ planning, evaluation, observation, and analysis skills. Evidence also suggests that practical physics increases students’ interest in science and motivates them to carry on its study.
4. Enhances independent learning
Practical physics is essential when it comes to the development of personal learning and thinking skills. In between the course of experiments, students are able to know how science functions and works at their own pace. Another way that students can enhance independent learning is through physics tuition, in which tutors are able to present something new.
Individual practical activities enhance the differentiation through task, outcome and questioning. This dependence is not only significant for developing personal learning and thinking skills, but it is also vital for improving self-confidence.
Experiments are an integral part of most scientific studies as they are crucial for testing theories and providing a basis for scientific knowledge. Practical physics activities have a significant advantage in the learning process of young physicists. By engaging students, the development of essential skills and mastery of the methods of scientific investigations and concepts is fostered. This means that there is a stronger need to place more emphasis on the quality, quantity, and breadth of practical work done in the classroom.