basic course
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Guest Lecturer: Krasimir Kolarov, Trajectory Generation - Basic Problem, Cartesian Planning, Cubic Polynomial, Finding Via Point Velocities, Linear Interpolation, Higher Order Polynomials, Trajectory Planning with Obstacles
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Waves are discussed in further detail. Basic properties of the waves such as velocity, energy, intensity, and frequency are discussed through a variety of examples. The second half of the lecture deals specifically with superposition of waves. Constructive and destructive interferences are defined and discussed.
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Hawkins talks about basic corporate, structural, and employee issues that entrepreneurs often don't learn in class. For example, entrepreneurs should be well-versed in many areas, such as legal, financial, and human resources issues.
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Scott suggests that basic questions such as why and for which market are asked before significant engineering resources can be allocated to any project. While Juniper's culture promotes innovation, it doesn't appreciate an innovation that is never used.
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April 27, 2009 - Leonard Susskind discusses the basic physics of the diatomic molecule and why you don't have to worry about its structure at low temperature. Susskind later explores a black hole thermodynamics.
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Introduction to basic physics of motion. Introduces the concept of variable velocity/acceleration.
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Area of Diagonal Generated Triangles of Rectangle are Equal.
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Introduction to basic algebraic equations of the form Ax=B.
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This lecture continues the discussion of the HOMO/LUMO view of chemical reactivity by focusing on ways of recognizing whether a particular HOMO should be unusually high in energy (basic), or a particular LUMO should be unusually low (acidic). The approach is illustrated with BH3, which is both acidic and basic and thus dimerizes by forming unusual "Y" bonds. The low LUMOs that make both HF and CH3F acidic are analyzed and compared underlin...more
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The lecture begins with a review of the loop-the-loop problem. Professor Shankar then reviews basic terminology in relation to work, kinetic energy and potential energy. He then goes on to define the Work-Energy Theorem. Finally, the Law of Conservation of Energy is discussed and demonstrated with specific examples.
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Professor Shankar introduces the course and answers student questions about the material and the requirements. He gives an overview of Newtonian mechanics and explains its two components: kinematics and dynamics. He then reviews basic concepts in calculus through two key equations: x0 + v0t + ½ at2 and v2 = v02+ 2 a (x-x0), tracing the fate of a particle in one dimension along the x-axis.
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In this lecture, Professor Bloom reviews the basic psychological research on memory. Specific topics covered include the different memory types, memory limitations, strategies that improve memory, and memory disorders. This lecture also includes a discussion of several important social implications for memory research, such as recovered memories, and the influence of suggestibility on eyewitness testimony.
