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Ashish M Dikshit and Dr. Ashish Dikshit, PHD
Moving charges experience a force in a magnetic field. If these moving charges are in a wire—that is, if the wire is carrying a current—the wire should also experience a force. However, before we talk about the force exerted on a current by a magnetic field, we first examine the magnetic field generated by an electric current. We are studying two separate effects here that interact closely: (1)A current-carrying wire generates a magnetic field and (2) the magnetic field exerts a force on the current-carrying wire. By the end of this project, using wolfram notebook, learners will be able to analyze the effects of magnetic fields on...
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Moving charges experience a force in a magnetic field. If these moving charges are in a wire—that is, if the wire is carrying a current—the wire should also experience a force. However, before we talk about the force exerted on a current by a magnetic field, we first examine the magnetic field generated by an electric current. We are studying two separate effects here that interact closely: (1)A current-carrying wire generates a magnetic field and (2) the magnetic field exerts a force on the current-carrying wire. By the end of this project, using wolfram notebook, learners will be able to analyze the effects of magnetic fields on moving charges and find velocity of a charge and magnetic force on a moving charge. They will also be able to determine the magnetic force on a moving charge and the radius of curvature of the path of a charge that is moving in a magnetic field. Learners will be able to calculate the Hall EMF across a current-carrying conductor & the magnetic force on a current-carrying conductor. This guided project is highly beneficial for students of AP Physics, IB Diploma SL/HL, Cambridge(AS, A Level), US, Grade 11,12th & will surely help them Ace their next physics tests .
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Helps learners analyze the effects of magnetic fields on moving charges, including velocity, force, and curvature of the path
Provides experience in using Wolfram Notebook, an industry-standard tool for scientific computing
Suitable for high school and university students studying Physics, offering a solid foundation and preparation for further study

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Reviews summary

Wolfram notebook for physics concepts

This Wolfram Notebook project helps students gain a strong foundation in using Wolfram Alpha. The instructor provides clear explanations and covers topics such as the effects of magnetic fields on moving charges, velocity of a charge, and magnetic force on a moving charge. Students appreciate the added benefit of learning about Wolfram Notebooks. Overall, this project is highly beneficial and enjoyable for students who want to enhance their physics understanding.
Builds a strong foundation in Wolfram Alpha.
"Course was very good to create a foundation of using wolfram alpha."
Introduces Wolfram Notebooks.
"I also learnt about using Wolfram Notebooks which was an added benefit."
Instructor explains concepts clearly.
"Instructor explained the concept of manipulating magnetic field concepts very well."
Some graphics would be helpful.
"Maybe some graphics to generate, per exemple, the field of magnetic dipole wold be nice."

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Manipulate Magnetic Field Concepts using Wolfram Notebook with these activities:
Review AP Physics, IB Diploma SL/HL or AS/A Level topics
Ensure you are ready for the course material by refreshing your knowledge of the prerequisite physics topics.
Browse courses on AP Physics
Show steps
  • Review the course syllabus to understand the prerequisite topics you need to master
  • Go through your notes, textbooks, and other learning materials, paying special attention to the topics that will be covered
  • Solve practice problems and review example questions for key concepts
Show all one activities

Career center

Learners who complete Manipulate Magnetic Field Concepts using Wolfram Notebook will develop knowledge and skills that may be useful to these careers:
Mechanical Engineer
Mechanical Engineers design and develop a wide range of products, from medical devices to automobiles. They use their knowledge of physics, mathematics, and materials to ensure that these products are safe, efficient, and reliable. The concepts learned in this course on magnetic fields and their effects on moving charges would be particularly relevant to Mechanical Engineers who work on designing and developing electric motors, generators, and other devices that use electromagnetic forces.
Electrical Engineer
Electrical Engineers design, develop, and test electrical systems and components. They use their knowledge of electricity, electronics, and electromagnetism to ensure that these systems and components are safe, efficient, and reliable. The concepts learned in this course on magnetic fields and their effects on moving charges would be particularly relevant to Electrical Engineers who work on designing and developing electric motors, generators, and other devices that use electromagnetic forces.
Physicist
Physicists study the fundamental laws of nature. They use their knowledge of physics to develop new technologies and solve problems in a wide range of fields, such as medicine, energy, and the environment. The concepts learned in this course on magnetic fields and their effects on moving charges would be particularly relevant to Physicists who work on developing new theories and technologies for use in electric motors, generators, and other devices that use electromagnetic forces.
Materials Scientist
Materials Scientists research and develop new materials, such as metals, ceramics, polymers, and composites. They use their knowledge of physics, chemistry, and materials science to design and develop materials that have specific properties, such as strength, durability, and electrical conductivity. The concepts learned in this course on magnetic fields and their effects on moving charges would be particularly relevant to Materials Scientists who work on developing new materials for use in electric motors, generators, and other devices that use electromagnetic forces.
Science Teacher
Science Teachers teach science to students in primary and secondary schools. They use their knowledge of science to help students understand the natural world and develop their critical thinking skills. The concepts learned in this course on magnetic fields and their effects on moving charges would be particularly relevant to Science Teachers who teach physics to high school students.
Technical Writer
Technical Writers create and edit technical documentation, such as user manuals, white papers, and technical reports. They use their knowledge of technical subjects to communicate complex information to a variety of audiences. The concepts learned in this course on magnetic fields and their effects on moving charges would be particularly relevant to Technical Writers who write about electrical engineering, materials science, or physics.
Software Engineer
Software Engineers design, develop, and test software applications. They use their knowledge of computer science and software engineering to create software that is efficient, reliable, and user-friendly. The concepts learned in this course on magnetic fields and their effects on moving charges may be relevant to Software Engineers who work on developing software for use in electric motors, generators, and other devices that use electromagnetic forces.
Operations Research Analyst
Operations Research Analysts use their knowledge of mathematics, statistics, and optimization to solve problems in a variety of industries, such as transportation, manufacturing, and healthcare. The concepts learned in this course on magnetic fields and their effects on moving charges may be relevant to Operations Research Analysts who work on developing models for use in electric motors, generators, and other devices that use electromagnetic forces.
Market Research Analyst
Market Research Analysts conduct research on markets and consumers to help businesses make informed decisions about product development, marketing, and sales. The concepts learned in this course on magnetic fields and their effects on moving charges may be relevant to Market Research Analysts who work on researching markets for electric motors, generators, and other devices that use electromagnetic forces.
Patent Attorney
Patent Attorneys help inventors protect their intellectual property by filing and prosecuting patents. They use their knowledge of patent law and technology to ensure that their clients' inventions are protected from infringement. The concepts learned in this course on magnetic fields and their effects on moving charges may be relevant to Patent Attorneys who work on patents for electric motors, generators, and other devices that use electromagnetic forces.
Financial Analyst
Financial Analysts use their knowledge of finance and economics to provide investment advice to individuals and institutions. The concepts learned in this course on magnetic fields and their effects on moving charges may be relevant to Financial Analysts who work on analyzing companies that manufacture or use electric motors, generators, and other devices that use electromagnetic forces.
Human Resources Manager
Human Resources Managers oversee the human resources function of an organization. They are responsible for recruiting, hiring, training, and developing employees. The concepts learned in this course on magnetic fields and their effects on moving charges may be relevant to Human Resources Managers who work for companies that manufacture or use electric motors, generators, and other devices that use electromagnetic forces.
Accountant
Accountants prepare and maintain financial records for businesses. They use their knowledge of accounting principles and regulations to ensure that financial records are accurate and complete. The concepts learned in this course on magnetic fields and their effects on moving charges may be relevant to Accountants who work for companies that manufacture or use electric motors, generators, and other devices that use electromagnetic forces.
Customer Service Representative
Customer Service Representatives provide support to customers by phone, email, or chat. They use their knowledge of products and services to help customers resolve their issues. The concepts learned in this course on magnetic fields and their effects on moving charges may be relevant to Customer Service Representatives who work for companies that manufacture or use electric motors, generators, and other devices that use electromagnetic forces.
Sales Associate
Sales Associates help customers find and purchase products or services. They use their knowledge of products and services to help customers make informed decisions. The concepts learned in this course on magnetic fields and their effects on moving charges may be relevant to Sales Associates who work for companies that manufacture or use electric motors, generators, and other devices that use electromagnetic forces.

Reading list

We've selected 11 books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Manipulate Magnetic Field Concepts using Wolfram Notebook.
This textbook good introduction to electromagnetism and waves. It is written in a clear and concise style, and it includes many helpful examples and exercises.
This textbook good introduction to physics for scientists and engineers. It includes a chapter on electromagnetism, which provides a good overview of the subject.
This textbook good introduction to physics for scientists and engineers. It includes a chapter on electromagnetism, which provides a good overview of the subject.
This textbook good introduction to physics for scientists and engineers. It includes a chapter on electromagnetism, which provides a good overview of the subject.
This textbook good introduction to physics for scientists and engineers. It includes a chapter on electromagnetism, which provides a good overview of the subject.
This textbook good introduction to physics for scientists and engineers. It includes a chapter on electromagnetism, which provides a good overview of the subject.
This textbook good introduction to physics for scientists and engineers. It includes a chapter on electromagnetism, which provides a good overview of the subject.
Provides a brief overview of magnetism, including its history, basic concepts, and applications. It good resource for students who want to learn more about the subject in a non-technical way.

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