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Chandralekha Singh
Home
Professional
+ Education
+ Honors
+ External Activities
+ PER Research
+ PER Publications
+ Condensed Matter Publications
+ Univ. Committees
+ Dept. Committees
+ Research Based Learning Tools
Coulomb's Law, Symmetry and Gauss's Law Tutorials
Multiple-Choice Assessments
Physics Exploration Problems
First Semester
Intro Movie
Second Semester
Quantum Mechanics Tools
QuILTs
Peer Instruction
Tutorial on Lock-In Amplifier
Web-based Interactive Problem Solving Tutorials for Introductory Physics
Conservation of Angular Momentum
Conservation of Mechanical Energy and Conservation of Momentum
Conservation of Mechanical Energy and Newton's Second Law in a Non-Equilibrium Situation
Conservation of Mechanical Energy and Work-Energy Theorem
Conservation of Mechanical Energy to determine Speed of a Proton in a Uniform Electric Field Between Charged Plates
Conservation of Mechanical Energy to Determine the Outcome of a Rolling Race for Objects with Different Shapes Rolling Down an Incline
Electric Field in an Off-Center Spherical Cavity in an Insulating Charged Sphere with Uniform Volume Charge Distribution Using Gauss's Law and Superposition Principle
Electric Field in Different Regions of a Conducting Spherical Shell Due to Changes in the Cavity and on the Conductor Using Gauss's Law and Superposition Principle
Equilibrium Application of Newton's Second Law
Equilibrium Application of Newton's Second Law in a problem involving Friction
Helical Motion of a Charged Particle in a Uniform External Field
Mechanical Equilibrium of a Rigid Body (ladder resting against a wall)
Newton's Second Law in an Equilibrium Situation to Determine Magnitude of Charge
Non-Equilibrium Application of Newton's Second Law
Non-equilibrium application of Newton's Second Law
Non-Equilibrium Application of Newton's Second Law and Torque Equation to Calculate Angular Acceleration and Tension for a Pulley System
Projectile Motion
Two Dimensional Kinematics with Constant Acceleration to Determine Motion of Electron in a Uniform Electric Field Between Charged Plates
Use of Faraday's Law to Determine the Terminal Speed of a Metal Bar Down an Incline Which Forms Part of a Conducting Loop
Use of Faraday's Law to Determine the Terminal Speed of a Vertically Falling Metal Bar Which Forms Part of a Conducting Loop
Video Resources
Full Content of Calculus-Based Introductory Physics II Lecture Series
+ Present and Past Graduate Students
Teaching
Physics 0104
Physics 0105
Physics 0106
Physics 0110
Physics 0111
Physics 0174
Physics 0175
Physics 1110
Physics 1119
Physics 1120
Physics 1351
Physics 1370
Physics 1371
Physics 2541
Physics 2997
+ Women and Other Underrepresented Groups in Physics
Blogs
Personal
Chandralekha Singh
Home
Professional
+ Education
+ Honors
+ External Activities
+ PER Research
+ PER Publications
+ Condensed Matter Publications
+ Univ. Committees
+ Dept. Committees
+ Research Based Learning Tools
Coulomb's Law, Symmetry and Gauss's Law Tutorials
Multiple-Choice Assessments
Physics Exploration Problems
First Semester
Intro Movie
Second Semester
Quantum Mechanics Tools
QuILTs
Peer Instruction
Tutorial on Lock-In Amplifier
Web-based Interactive Problem Solving Tutorials for Introductory Physics
Conservation of Angular Momentum
Conservation of Mechanical Energy and Conservation of Momentum
Conservation of Mechanical Energy and Newton's Second Law in a Non-Equilibrium Situation
Conservation of Mechanical Energy and Work-Energy Theorem
Conservation of Mechanical Energy to determine Speed of a Proton in a Uniform Electric Field Between Charged Plates
Conservation of Mechanical Energy to Determine the Outcome of a Rolling Race for Objects with Different Shapes Rolling Down an Incline
Electric Field in an Off-Center Spherical Cavity in an Insulating Charged Sphere with Uniform Volume Charge Distribution Using Gauss's Law and Superposition Principle
Electric Field in Different Regions of a Conducting Spherical Shell Due to Changes in the Cavity and on the Conductor Using Gauss's Law and Superposition Principle
Equilibrium Application of Newton's Second Law
Equilibrium Application of Newton's Second Law in a problem involving Friction
Helical Motion of a Charged Particle in a Uniform External Field
Mechanical Equilibrium of a Rigid Body (ladder resting against a wall)
Newton's Second Law in an Equilibrium Situation to Determine Magnitude of Charge
Non-Equilibrium Application of Newton's Second Law
Non-equilibrium application of Newton's Second Law
Non-Equilibrium Application of Newton's Second Law and Torque Equation to Calculate Angular Acceleration and Tension for a Pulley System
Projectile Motion
Two Dimensional Kinematics with Constant Acceleration to Determine Motion of Electron in a Uniform Electric Field Between Charged Plates
Use of Faraday's Law to Determine the Terminal Speed of a Metal Bar Down an Incline Which Forms Part of a Conducting Loop
Use of Faraday's Law to Determine the Terminal Speed of a Vertically Falling Metal Bar Which Forms Part of a Conducting Loop
Video Resources
Full Content of Calculus-Based Introductory Physics II Lecture Series
+ Present and Past Graduate Students
Teaching
Physics 0104
Physics 0105
Physics 0106
Physics 0110
Physics 0111
Physics 0174
Physics 0175
Physics 1110
Physics 1119
Physics 1120
Physics 1351
Physics 1370
Physics 1371
Physics 2541
Physics 2997
+ Women and Other Underrepresented Groups in Physics
Blogs
Personal
More
Home
Professional
+ Education
+ Honors
+ External Activities
+ PER Research
+ PER Publications
+ Condensed Matter Publications
+ Univ. Committees
+ Dept. Committees
+ Research Based Learning Tools
Coulomb's Law, Symmetry and Gauss's Law Tutorials
Multiple-Choice Assessments
Physics Exploration Problems
First Semester
Intro Movie
Second Semester
Quantum Mechanics Tools
QuILTs
Peer Instruction
Tutorial on Lock-In Amplifier
Web-based Interactive Problem Solving Tutorials for Introductory Physics
Conservation of Angular Momentum
Conservation of Mechanical Energy and Conservation of Momentum
Conservation of Mechanical Energy and Newton's Second Law in a Non-Equilibrium Situation
Conservation of Mechanical Energy and Work-Energy Theorem
Conservation of Mechanical Energy to determine Speed of a Proton in a Uniform Electric Field Between Charged Plates
Conservation of Mechanical Energy to Determine the Outcome of a Rolling Race for Objects with Different Shapes Rolling Down an Incline
Electric Field in an Off-Center Spherical Cavity in an Insulating Charged Sphere with Uniform Volume Charge Distribution Using Gauss's Law and Superposition Principle
Electric Field in Different Regions of a Conducting Spherical Shell Due to Changes in the Cavity and on the Conductor Using Gauss's Law and Superposition Principle
Equilibrium Application of Newton's Second Law
Equilibrium Application of Newton's Second Law in a problem involving Friction
Helical Motion of a Charged Particle in a Uniform External Field
Mechanical Equilibrium of a Rigid Body (ladder resting against a wall)
Newton's Second Law in an Equilibrium Situation to Determine Magnitude of Charge
Non-Equilibrium Application of Newton's Second Law
Non-equilibrium application of Newton's Second Law
Non-Equilibrium Application of Newton's Second Law and Torque Equation to Calculate Angular Acceleration and Tension for a Pulley System
Projectile Motion
Two Dimensional Kinematics with Constant Acceleration to Determine Motion of Electron in a Uniform Electric Field Between Charged Plates
Use of Faraday's Law to Determine the Terminal Speed of a Metal Bar Down an Incline Which Forms Part of a Conducting Loop
Use of Faraday's Law to Determine the Terminal Speed of a Vertically Falling Metal Bar Which Forms Part of a Conducting Loop
Video Resources
Full Content of Calculus-Based Introductory Physics II Lecture Series
+ Present and Past Graduate Students
Teaching
Physics 0104
Physics 0105
Physics 0106
Physics 0110
Physics 0111
Physics 0174
Physics 0175
Physics 1110
Physics 1119
Physics 1120
Physics 1351
Physics 1370
Physics 1371
Physics 2541
Physics 2997
+ Women and Other Underrepresented Groups in Physics
Blogs
Personal
Second Semester
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