In this unit, students focus on the phenomena of rocky shore ecosystems and the science phenomena of how organisms interact. For this lesson, students analyze how adaptations allow for the survival of different organisms, specifically sea star structures. This is a high-level extract of this lesson.
In this unit, students explore the interconnectedness of the living and nonliving parts of an ecosystem phenomena. In this lesson, they design an experiment to test how heat is transferred in different materials found on the rocky shore. This page provides a brief overview of this lesson.
In this unit, students explore the science phenomena of Earth systems as they interact. Students do this by discovering the importance of water for life on Earth. In this lesson, students figure out groundwater flow by exploring the porosity and permeability of different Earth materials. This page is a high-level extract of this lesson.
In this unit, students focus on interactions between the hydrosphere and the geosphere as they explore the phenomena of groundwater in human development. For this lesson, they engineer a water filtration device to treat samples of simulated polluted stormwater runoff. This page highlights key components of this lesson.
In this unit, students explore phenomena related to the relationship between forces and motion and how energy is converted from one form to another in an energy system. This page is a high-level extract of the first lesson from this unit which has students investigating the connection between an object’s mass and the force needed to change its motion.
In this unit, students analyze the science phenomena of connections between energy, forces, and motion. In this lesson, students use data to construct an explanation about phenomena that occur because of the relationships between an object’s kinetic energy, its mass, and its speed. This page provides an overview of this lesson.
In this unit, students explore the relationship between the phenomena of forces and motion and how energy is converted from one form to another in an energy system. In this lesson, students design a vehicle that can travel over a surface on a cushion of air. This page highlights key parts of this lesson.
In this unit, students connect their explorations of Earth and life sciences with physical sciences with an exploration into the relationship between magnetism and electricity. In this lesson, they explore the interactions between magnets and electricity. This page is a high-level extract of this lesson.
In this unit, students explore how communication systems transmit information from one person or place to another. In this lesson, students use what they know about the science phenomena of electromagnets and magnetic fields to design a speaker, a common decoding device in many audio technologies. This page highlights key components of this lesson.
In this unit, students are introduced to the phenomena of magnetic and electric fields as they explore how objects can interact with other objects without coming into contact with them. For this lesson, students apply scientific concepts to engineer wind turbines that use a generator to produce electricity. This page provides an overview of this lesson.
In this unit, students build on what they know about the science phenomena of energy transfer to focus on information transfer and how different technologies use patterns of sound, light, or numbers to transmit information. This page showcases key components of this lesson.
In this unit, students focus on the properties of different kinds of waves and the relationship between waves and energy. In this lesson, students design a simple seismograph using what they know about the properties of seismic waves produced by earthquakes. This page is a high-level extract of this lesson.
In kindergarten, students begin to develop the practices that scientists and engineers use to help them answer questions and solve problems. This page is a high level extract from lesson 3, where students carry out an experiment to determine how heat affects water in a solid form (ice).
Standards citation: NGSS Lead States. 2013. Next Generation Science Standards: For States, By States. Washington, DC: The National Academies Press. Neither WestEd nor the lead states and partners that developed the Next Generation Science Standards were involved in the production of this product, and do not endorse it.