Study of the states of matter and their properties and changes. Students will discover the relationship between the states of matter and their energy content through simulations.
In this Science Nspired module, students will explore density of matter through simulations, a data-collection lab, formative assessments and summative assessments. This Lesson Guide is a TI-Nspire PublishviewTM document.
This Bell Ringer introduces the topic of density of matter to students by showing what happens to the air inside a hot air baloon as it is heated. The Bell Ringer is a TI-Nspire PublishViewTM document.
In this lesson, students will visualize the relationship between density of solutions and the relative position of an object in the solution.
In this lesson, students will determine the mass and volume of five nails to explore density.
In this Science Nspired module, students will explore changes of state through simulations, a data-collection lab, formative assessments and summative assessments. This Lesson Guide is a TI-Nspire PublishviewTM document.
This Bell Ringer introduces the topic of changes of state to students by showing the change in temperature caused by evaporation of different liquids. The Bell Ringer is a TI-Nspire PublishViewTM document.
In this lesson, students will explore a simulation that visually shows the behavior of particles in a substance as the temperature changes.
In this lesson, students will observe the effect of adding ice to warm water.
In this lesson, students will use the temperature sensor to determine the freezing and melting points of water.
In this Science Nspired module, students will explore gas laws through simulations, a data-collection lab, formative assessments and summative assessments. This Lesson Guide is a TI-Nspire PublishviewTM document.
This Bell Ringer introduces the topic of the gas laws to students by showing various applications of compressed gas. The Bell Ringer is a TI-Nspire PublishViewTM document.
In this lesson, students will observe and make predictions about the motion and pressure of the molecules of a confined gas as the temperature is increased or decreased.
In this lesson, students use the Gas Pressure Sensor in an inquiry activity to understand Boyle's Law through experimentation and data collection.