Search Results
Your search for courses · during 26SP · taught by arjendu · returned 4 results
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PHYS 123 What Physicists Do 1 credits
A program of five lectures by invited speakers that is intended to give students some perspective on the kinds of work done by people with a physics background. Visitors from industry, government, business, and research and educational institutions will discuss their work and work-related experiences. The abstracts for the talks can be found at https://www.carleton.edu/physics-astronomy/phys-123-speaker-series/.
- Spring 2026
- No Exploration
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Student has completed any of the following course(s): One 6 credit Introductory Physics (131-165) course OR Two 3 credit Introductory Physics (131-165) courses with a grade of C- or better.
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PHYS 145 Mechanics and Waves and Lab 6 credits
This course begins with the study of the motion of objects on the human scale using Newton's laws. The course provides the foundation for the study of conservation of energy and momentum, waves, and fluids. Biologic, medical, chemical, nuclear, and geologic applications may be considered. Comfort with algebra and the integration and differentiation of elementary functions is assumed. Weekly laboratory work.
During registration, students will register for both the lecture and a corresponding lab section, which will appear on the student's academic transcript in a single entry.
- Spring 2026
- LS, Science with Lab QRE, Quantitative Reasoning
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Student has completed any of the following course(s): MATH 101 or MATH 111 or greater with a grade of C- or better or received a score of 4 or better on the Calculus AB AP exam or received a score of 4 or better on the Calculus BC exam or received a score of 5 or better on the Calculus IB exam or received a Carleton Math 111 or better Requisite Equivalency AND has NOT taken PHYS 131 or PHYS 142 or PHYS 143 or PHYS 144.
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PHYS 145.54 Spring 2026
- Faculty:Arjendu Pattanayak 🏫 👤
- Size:24
- THAnderson Hall 021 1:00pm-5:00pm
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PHYS 336 Open Quantum Systems and Quantum Information 6 credits
An introduction to composite quantum systems, quantum entanglement, and open quantum systems. Topics include treatment of composite and reduced density matrices and the dynamics of decoherence via the Lindblad dynamical equation, as well as quantum circuits and quantum information theoretic applications including quantum cryptography and teleportation and a consideration of quantum algorithms that improve upon classical computing. We will also discuss experimental implementation and quantum error correction appropriate for real-world applications.
- Spring 2026
- No Exploration
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Student has completed any of the following course(s): PHYS 335 with grade of C- or better.
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PHYS 336.01 Spring 2026
- Faculty:Arjendu Pattanayak 🏫 👤
- Size:20
- M, WAnderson Hall 036 1:50pm-3:00pm
- FAnderson Hall 036 2:20pm-3:20pm
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PHYS 400 Integrative Exercise
An extensive study of a specific topic in physics, culminating in a 60-minute presentation during winter or spring term and a 7500 word paper. Students may arrange to complete the bulk of their work during winter or spring term (Physics 400, 6 credits), or divide their effort between terms (PHYS 400, winter, 3 credits; PHYS 400, spring, 3 credits).
- Spring 2026
- No Exploration
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Student is a Physics major AND has Senior Priority.