New Brunswick Curriculum
1.1.1: use vector analysis in two dimensions for systems involving two or more masses, relative motions, static equilibrium, and static torques
Torque and Moment of Inertia
Uniform Circular Motion
1.1.2: use vectors to represent forces
1.1.2.c: acceleration of an object when acted by unbalanced forces.
Atwood Machine
Free-Fall Laboratory
Inclined Plane - Simple Machine
1.1.4: design an experiment identifying and controlling major variables
Pendulum Clock
Real-Time Histogram
1.1.5: evaluate and select appropriate instruments for collecting evidence and appropriate processes for problem solving, inquiring and decision making
1.1.6: carry out procedures controlling major variables and adapting or extending procedures where required
Diffusion
Pendulum Clock
Real-Time Histogram
Seed Germination
1.1.7: compile and display evidence, by hand or computer, in a variety of formats, including diagrams, charts, tables, graphs and scatter plots
Earthquakes 1 - Recording Station
Seasons Around the World
1.2.1: apply quantitatively the law of conservation of momentum to one-dimensional collisions and explosions
1.2.2: design an experiment identifying and controlling major variables
Pendulum Clock
Real-Time Histogram
1.2.3: evaluate and select appropriate instruments for collecting evidence and appropriate processes for problem solving, inquiring and decision making
1.2.4: carry out procedures controlling major variables and adapting or extending procedures where required
Diffusion
Pendulum Clock
Real-Time Histogram
Seed Germination
1.2.5: compile and display evidence, by hand or computer, in a variety of formats, including diagrams, charts, tables, graphs and scatter plots
Earthquakes 1 - Recording Station
Seasons Around the World
1.3.3: explain the importance of using appropriate language and conventions when describing events related to momentum and energy
1.4.1: apply quantitatively the laws of conservation of momentum to one and two dimensional collisions and explosions
1.4.2: determine in which real-life situations involving elastic and inelastic interactions the laws of conservation of momentum and energy are best used
1.4.3: design an experiment identifying and controlling major variables
Pendulum Clock
Real-Time Histogram
1.4.4: evaluate and select appropriate instruments for collecting evidence and appropriate processes for problem solving, inquiring and decision making
1.4.5: carry out procedures controlling major variables and adapting or extending procedures where required
Diffusion
Pendulum Clock
Real-Time Histogram
Seed Germination
1.4.6: compile and display evidence, by hand or computer, in a variety of formats, including diagrams, charts, tables, graphs and scatter plots
Earthquakes 1 - Recording Station
Seasons Around the World
2.1.3: construct, test and evaluate a device or system on the basis of developed criteria
2.1.4: analyse quantitatively the horizontal and vertical motion of a projectile
Feed the Monkey (Projectile Motion)
Golf Range
2.2.1: describe uniform circular motion using algebraic and vector analysis
2.2.2: explain quantitatively circular motion using Newtonâ??s laws
2.3.1: identify questions, analyse, compile, and display evidence and information to investigate the development over time of a practical problem, issue, or technology
2.3.3: explain quantitatively the relationship between potential and kinetic energies of a mass in simple harmonic motion
2.3.4: compile and organize data, using data tables and graphs, to facilitate interpretation of the data
Determining a Spring Constant
Seasons Around the World
2.4.1: explain qualitatively Keplerâ??s first and second laws and apply quantitatively Keplerâ??s third law
Orbital Motion - Kepler's Laws
3.1.2: communicate questions, ideas and intentions, and receive, interpret, understand, support and respond to the ideas of others
3.2.2: compare Newtonâ??s Law of universal gravitation with Coulombâ??s Law, and apply both laws quantitatively
Coulomb Force (Static)
Gravitational Force
Pith Ball Lab
Coulomb Force (Static)
Gravitational Force
Pith Ball Lab
Coulomb Force (Static)
Gravitational Force
Pith Ball Lab
3.3.1: apply Ohmâ??s Law to series, parallel, and combination circuits
3.3.1.a: extend the work-energy theorem to develop the concept of electric potential energy
Inclined Plane - Simple Machine
Inclined Plane - Sliding Objects
3.3.1.b: define electric potential difference
3.3.1.c: describe factors that control electrical resistance
3.3.1.d: define electric current
3.3.1.e: draw a schematic diagram for series, parallel, and simple combination circuits
3.3.1.f: investigate the relationship between voltage rises and voltage drops across circuit elements
3.3.1.g: describe the energy transformations
Energy Conversion in a System
Inclined Plane - Sliding Objects
3.3.2: carry out procedures controlling the major variables, selecting and using instruments effectively, accurately, and safely, and adapting or extending procedures where required
Diffusion
Pendulum Clock
Real-Time Histogram
Seed Germination
3.3.4: design an experiment and identify specific variables
Pendulum Clock
Real-Time Histogram
3.5.1: compare and contrast the ways a motor and generator function, using the principles of electromagnetism
Correlation last revised: 9/16/2020