Engineering students should be able to understand circuits to serve as a basis for pursuing electrical engineering. Courses focused on the theory and application of electrical circuits can never be left out of an engineering degree program. However, the biggest challenge is attracting new students into the channels, which requires unique skills, approaches and methodologies. If these new methods were designed and made accessible to teachers, it would greatly renew students' interest in circuits. Say no to plagiarism. Get a tailor-made essay on “Why Violent Video Games Should Not Be Banned”? Get an original essay The study of circuits is essential to help evaluate the energy systems that the circuits imitate. The Electrical Circuit Theory course is therefore essential for electrical engineering beginners, as future engineers need to understand the design principles of a wide range of electrical devices. However, circuit analysis relies heavily on mathematical concepts and physical principles, even though students build circuits intuitively due to a lack of knowledge. Therefore, the Basic Electrical Circuit Theory course is an important starting point in electrical engineering. During their studies, students are expected to understand and master passive components, node and mesh equations, steady-state analysis, and transient analysis. This will help resolve challenges students face during presentations of Laplace transforms involving unit functions, momentum functions, and parabolic functions. Laplace transforms the methods for changing a time domain differential equation to the Laplace domain algebraic equation for ease of calculation, and an inverse form is applied to return it to the original. At this point, the mathematical analysis becomes ambiguous and rhetorical, confusing students and making it difficult to understand. To facilitate learning, I would like my research to focus on three points that I consider necessary. First, Laplace complexity transforms in an engineering context. Second, the difficulties faced by engineering students when handling Laplace transformations and, third, a teacher's perspective on the role of Laplace transformations in engineering education. I believe that to generate renewed interest in circuits, better teaching tools and delivery methods need to be adopted to attract newcomers to the world of electrical engineering. Keep in mind: this is just a sample. Get a personalized article from our expert writers now. Electric circuit theory also instills critical thinking and problem-solving skills, which results in a great sense of responsibility among students. I have been working with undergraduate students for over six years and it has made me realize that constructive alignment of fundamental concepts requires a wealth of knowledge and functional expertise to apply what is learned in the classroom to real-world situations . I would like to explore innovative knowledge areas in engineering education, where advanced technology mimics real-world engineering problems. I can only achieve this through the facilitation of Purdue University, the most experienced faculty I know. My goal is to foster a more enjoyable and better learning environment for..