## ENROLL Course Search

Your search for courses for 21/WI and with code: STEMPHYS found 10 courses.

### BIOL 244.00 Biostatistics 3 credits

Closed: Size: 20, Registered: 24, Waitlist: 0

M | T | W | TH | F |
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1:45pm3:30pm |

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An introduction to statistical techniques commonly used in Biology. The course will use examples from primary literature to examine the different ways that biological data are organized and analyzed. Emphasis will be placed on how to choose the appropriate statistical techniques in different circumstances and how to use statistical software to carry out tests. Topics covered include variable types (categorical, parametric, and non-parametric), analysis of variance, generalized linear models, and meta-analysis. There will be an opportunity for students to analyze data from their own research experiences.

*Prerequisite:* Biology 125 and 126 and one Biology 200 or 300 level course

### CS 111.01 Introduction to Computer Science 6 credits

Open: Size: 34, Registered: 21, Waitlist: 0

M | T | W | TH | F |
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10:00am11:10am | 10:00am11:10am | 9:50am10:50am |

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This course will introduce you to computer programming and the design of algorithms. By writing programs to solve problems in areas such as image processing, text processing, and simple games, you will learn about recursive and iterative algorithms, complexity analysis, graphics, data representation, software engineering, and object-oriented design. No previous programming experience is necessary. Students who have received credit for Computer Science 201 or above are not eligible to enroll in Computer Science 111.

Sophomore Priority

**Waitlist for Juniors and Seniors:** CS 111.WL1 (Synonym 58543)

### CS 111.02 Introduction to Computer Science 6 credits

Open: Size: 34, Registered: 17, Waitlist: 0

M | T | W | TH | F |
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11:30am12:40pm | 11:30am12:40pm | 11:10am12:10pm |

#### Requirements Met:

This course will introduce you to computer programming and the design of algorithms. By writing programs to solve problems in areas such as image processing, text processing, and simple games, you will learn about recursive and iterative algorithms, complexity analysis, graphics, data representation, software engineering, and object-oriented design. No previous programming experience is necessary. Students who have received credit for Computer Science 201 or above are not eligible to enroll in Computer Science 111.

Sophomore Priority

**Waitlist for Juniors and Seniors:** CS 111.WL2 (Synonym 58544)

### CS 111.03 Introduction to Computer Science 6 credits

Open: Size: 34, Registered: 27, Waitlist: 0

M | T | W | TH | F |
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7:00pm8:10pm | 7:00pm8:10pm | 7:00pm8:00pm |

#### Requirements Met:

This course will introduce you to computer programming and the design of algorithms. By writing programs to solve problems in areas such as image processing, text processing, and simple games, you will learn about recursive and iterative algorithms, complexity analysis, graphics, data representation, software engineering, and object-oriented design. No previous programming experience is necessary. Students who have received credit for Computer Science 201 or above are not eligible to enroll in Computer Science 111.

### CS 111.04 Introduction to Computer Science 6 credits

Open: Size: 34, Registered: 17, Waitlist: 0

M | T | W | TH | F |
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2:30pm3:40pm | 2:30pm3:40pm | 3:10pm4:10pm |

#### Requirements Met:

### PHYS 143.52 Physical Systems: Mechanics and Relativity and Lab 6 credits

Open: Size: 24, Registered: 13, Waitlist: 0

M | T | W | TH | F |
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1:00pm2:10pm | 1:45pm5:45pm | 1:00pm2:10pm | 1:50pm2:50pm |

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This course begins with an introduction to classical mechanics using the Newtonian worldview. The kinematics and dynamics of some simple systems are investigated using Newton's laws, vector analysis, and the conservation laws of momentum and energy. The course moves beyond the Newtonian framework to address topics including special relativity and also selected applications to atomic, nuclear, and particle physics. Comfort with algebra and the integration and differentiation of elementary functions is assumed. Weekly laboratory work.

*Prerequisite:* Previous completion or concurrent registration in Mathematics 120 or 121. Not open to students who have completed Physics 131, 144, 145 or 151 at Carleton.

Held for First year students

**Waitlist for Sophomores, Juniors and Seniors:** PHYS 143.WL2 (Synonym 58221)

### PHYS 144.54 Astrophysical Systems: Mechanics and Relativity and Lab 6 credits

Closed: Size: 24, Registered: 24, Waitlist: 0

M | T | W | TH | F |
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1:00pm2:10pm | 1:00pm2:10pm | 1:45pm5:45pm | 1:50pm2:50pm |

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Barry N Costanzi, Chris J West

This course begins by considering basic principles of physics in the realm of planetary systems, black holes and dark matter in the universe. Conservation of energy and momentum will be used to explore large-scale phenomena in the cosmos. The course moves beyond the Newtonian framework to address topics including special relativity and also selected applications to atomic, nuclear, and particle physics. Comfort with algebra and the integration and differentiation of elementary functions is assumed. Weekly laboratory work.

*Prerequisite:* Previous completion or concurrent registration in Mathematics 120 or 121. Not open to students who have completed Physics 131, 143, 145 or 151 at Carleton.

Held for First year students. Appropriate for students with prior calculus-based physics course such as an AP or IB course.

**Waitlist for Sophomores, Juniors and Seniors:** PHYS 144.WL4 (Synonym 58224)

### PHYS 144.57 Astrophysical Systems: Mechanics and Relativity and Lab 6 credits

Open: Size: 24, Registered: 14, Waitlist: 0

M | T | W | TH | F |
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1:00pm2:10pm | 8:00am12:00pm | 1:00pm2:10pm | 1:50pm2:50pm |

#### Requirements Met:

#### Other Tags:

This course begins by considering basic principles of physics in the realm of planetary systems, black holes and dark matter in the universe. Conservation of energy and momentum will be used to explore large-scale phenomena in the cosmos. The course moves beyond the Newtonian framework to address topics including special relativity and also selected applications to atomic, nuclear, and particle physics. Comfort with algebra and the integration and differentiation of elementary functions is assumed. Weekly laboratory work.

*Prerequisite:* Previous completion or concurrent registration in Mathematics 120 or 121. Not open to students who have completed Physics 131, 143, 145 or 151 at Carleton.

Held for First year students. Appropriate for students with prior calculus-based physics course such as an AP or IB course.

**Waitlist for Sophomores, Juniors and Seniors:** PHYS 144.WL7 (Synonym 58225)

### PHYS 165.52 Introduction to Electricity, Magnetism, and Optics and Lab 6 credits

Closed: Size: 24, Registered: 25, Waitlist: 0

Boliou 104 / Location To Be Announced

M | T | W | TH | F |
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8:30am9:40am | 1:45pm5:45pm | 8:30am9:40am | 8:30am9:30am |

#### Requirements Met:

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A study of the principles of electricity, magnetism, and optics with an emphasis on real-world applications including electronics, laser physics, astronomy, and medicine. Topics include electric and magnetic fields, electric potentials, DC and AC circuits, geometric and wave optics, and relevant properties of matter. Designed for science majors who want additional background in physics. Comfort with algebra and the integration and differentiation of elementary functions is assumed. One laboratory per week.

*Prerequisite:* Physics 131, 143, 144, or 145. Mathematics 120 or 121 suggested

### PHYS 165.59 Introduction to Electricity, Magnetism, and Optics and Lab 6 credits

Open: Size: 24, Registered: 23, Waitlist: 0

Boliou 104 / Location To Be Announced

M | T | W | TH | F |
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8:30am9:40am | 8:30am9:40am | 8:00am12:00pm | 8:30am9:30am |

#### Requirements Met:

#### Other Tags:

A study of the principles of electricity, magnetism, and optics with an emphasis on real-world applications including electronics, laser physics, astronomy, and medicine. Topics include electric and magnetic fields, electric potentials, DC and AC circuits, geometric and wave optics, and relevant properties of matter. Designed for science majors who want additional background in physics. Comfort with algebra and the integration and differentiation of elementary functions is assumed. One laboratory per week.

*Prerequisite:* Physics 131, 143, 144, or 145. Mathematics 120 or 121 suggested

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