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.
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.
Got Force?
Students use various surfaces and a weighted car to see how far the car will travel using balanced and unbalanced forces.
Types of Science Investigations
Students will distinguish between descriptive, comparative, and experimental investigations.
Experimental Design
Given investigation scenarios and lab procedures, students will identify independent variables, dependent variables, constants, and control groups.
Demonstration and Analysis of Dihybrid Crosses
The students will review related vocabulary, watch the teacher model a dihybrid cross, and then perform a dihybrid cross and answer questions about the outcomes with a partner.
What's going on with our plates?
The students will work collaboratively in small, ability-based groups in stations that will require them to use their academic vocabulary, academic language, and self-assessment to generate a product showing what they have learned.
Let's FIND Speed!
This research lesson requires students to distinguish between speed, distance, and time. Students will use formulas to calculate the three using a checklist. Students will also create their own speed, distance, or time word problem using the knowledge gained in this lesson.
17 OnTRACK Scientific Process Skills
This binder contains seventeen separate resources focused on the scientific processes for conducting laboratory and field investigations.
6 Chapter 6: Stoichiometry
In this chapter, students are introduced to the mole, mass relationships, and stoichiometric calculations with balanced equations.
2 Chapter 10: Light
In this chapter, we discuss visible light and other forms of electromagnetic radiation.
6 Chapter 3: Kinematics
In this chapter, we analyze the motion of constantly accelerated objects over time in terms of displacement, velocity, and acceleration.
5 Chapter 6: Waves
In this chapter, we explore the mathematical concept of a wave and show how this concept can be used to accurately describe and predict many natural phenomena.
3 Chapter 7: Static Electricity
In this chapter, we explore how electrically charged particles interact through electrostatic forces and fields.
8 Chapter 3: Measurements
In this chapter, we strengthen math skills necessary for chemistry problems and discuss the SI units of measurement. Additionally, we convert between units of measurement and discuss interpreting data from graphs and tables.
3 Chapter 14: Nuclear Chemistry
In this chapter, we discuss nuclear reactions that occur in unstable nuclides.
8 Chapter 11: Electron Configuration and Periodic Trends
In this chapter, we discuss determining electron configurations and periodic trends.
3 Chapter 4: Science and Me
In this chapter, we will discuss how chemistry affects our everyday lives and how you can find careers in chemistry.
6 Chapter 8: Gases
In this chapter, we discuss the properties of gas particles and the laws that govern their behavior.