Full Speed Ahead
Students will use hover pucks to measure speed over a distance of six meters. Once speed has been calculated, students will determine velocity using the same data. Finally, students will be able to label all points of acceleration.
Building a Watershed
Students will model the effects of human activity on watersheds.
Save the Factory!
Students will design an experiment to test the outcome of friction in force and motion. The students will create an inclined plane demonstrating their knowledge of mechanical energy and the effects of gravity on an object. Students will use previous knowledge of friction to complete their task of stopping their object. Critical thinking skills will be the focus of the lesson as students will have to utilize their scientific problem-solving skills to make decisions regarding their experiment.
Texas Essential Knowledge and Skills (TEKS) Vertical Alignment
Click below to learn about the TEKS related to the unit and Research Lesson. The highlighted student expectation(s) is the chosen focus for the Research Lesson.
Modeling the Path of Digestion
Students model the path of digestion using household items.
Drumming Up Some Sound Energy!
Students will explore sound energy by creating their own drums using a variety of materials. Then, students will listen for the loud and soft sounds that each of the drums creates.
Introduction of Lesson using a video of drums
DNA Sequencing
In this lesson, students will investigate how gene expression is a regulated process controlled by DNA and the interpretations of codons through translation.
Push Back, Pull Forward
Students will conduct an experiment to demonstrate force such as pushes and pulls.
Making Solutions
Given graphs, scenarios, illustrations, or descriptions, the student will determine how different processes affect solubility in aqueous solutions.
Precipitation Reactions
Given graphs, scenarios, illustrations, or descriptions, the student will determine how different processes affect solubility in aqueous solutions.
Nomenclature of Ionic Compounds
Given descriptors, diagrams. or scenarios, students will write and name the chemical formulas of common polyatomic ions and ionic compounds containing main group or transition metals and bases.
Mole Conversions
Given descriptions or chemical formula of a substance, students will convert between mass, moles, and particles for a sample of material.
Quantifying Changes in Chemical Reactions: Balancing Equations
Given descriptions or chemical formulas of the reactants and the products of chemical reactions, students will apply the law of conservation of mass and manipulate coefficients to balance chemical equations.
Motion in One Dimension
Given descriptions, illustrations, graphs, charts, or equations, students will analyze motion in one dimension.
Analyzing Two-Dimensional Motion
Given descriptions, illustrations, graphs, charts, or equations, students will analyze motion in two dimensions, including projectile and circular motion.
Electric and Magnetic Forces
Given diagrams, illustrations, or descriptions, students will identify examples of electric and magnetic forces.
Types of Motion
Students will distinguish between and/or interpret the types of motion.
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.