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Students will work in small groups of two to three on a structured challenge around circuits which includes requirements such as including using a switch or a conductor. They will then use that knowledge to work on a collaborative challenge to solve a relevant problem related to elephant poaching. Students will create a containment system that will have an alarm system, a lighting system, and a way to pass through. Finally, they will review the other projects and discuss similarities and differences in the design.
Prokaryotic and Eukaryotic Cells
Students will categorize cells as prokaryotic or eukaryotic by identifying the presence or lack of a nucleus.
Lights, Camera, Action!
Students compare and contrast potential and kinetic energy by creating a real-world model through a movie.
Newton's Second Law
Students will work in partners to investigate Newton’s second law by testing a series of experiments with varying conditions.
Does it have Potential?
Students will work with partners to investigate how mass, potential energy, and kinetic energy act on objects dropped from varying heights.
How Newton's Laws Apply Every Day
Students collaboratively determine how the characteristics of a real-world job correlate with each of Newton’s Laws and why that is relevant to their own lives.
Students use various surfaces and a weighted car to see how far the car will travel using balanced and unbalanced forces.
Students will work in small collaborative groups to demonstrate the rotation of the Earth as it revolves around the Sun which creates a day and night cycle.
Types of Motion
Students will distinguish between and/or interpret the types of motion.
Scientific Investigation and Reasoning - Safe Practices
Students will use interactive exercises to review common lab safety rules and safety symbols.
Lab Safety Equipment
Given investigation scenarios, students will select appropriate preventative safety equipment.
Scientific Investigation and Reasoning - Data Organization
Using interactive exercises, students will review how to construct tables and graphs in order to organize data.
Scientific Investigation and Reasoning - Data Analysis
Students will use interactive exercises to analyze data to identify patterns, predict trends, formulate reasonable explanations, and communicate valid conclusions.
Scientific Investigation and Reasoning - Scientific Explanations
Using interactive exercises, students will review how to evaluate a scientific explanation.
Scientific Investigation and Reasoning - Models
Using interactive exercises, students will review the three different types of models and the advantages and limitations of models.
Scientific Investigation and Reasoning - Contribution of Scientists
Using interactive exercises, students will review the contributions of scientist to various fields of scientific study.
Matter and Energy - Atomic Structure
Using interactive exercises, students will describe the structure of atoms and the locations of particles with in the atom.
Using interactives, students will demonstrate that gravity is the force that governs the motion of our solar system.
Students will identify how light years are used to measure distances and sizes of components of the universe.
Types of Science Investigations
Students will distinguish between descriptive, comparative, and experimental investigations.