Matter and Energy
Matter: Properties and Change
6.P.2 Understand the structure, classifications and physical properties of matter.
6.P.2.1 Recognize that all matter is made up of atoms and atoms of the same element are all alike, but are different from the atoms of other elements.
6.P.2.2 Explain the effect of heat on the motion of atoms through a description of what happens to particles during a change in phase.
6.P.2.3 Compare the physical properties of pure substances that are independent of the amount of matter present including density, boiling point, melting point
and solubility to properties that are dependent on the amount of matter present to include volume, mass and weight.
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6.P.2.1 - What are Atoms and Molecules?
6.P.2.1 - What Are Elements?
6.P.2.1 - Whats all the matter? Atoms and Molecules
6.P.2.1 - Chemistry - The Properties of Matter
6.P.2.1 - 4 States of Matter Song
6.P.2.1 - Matter And Its Composition
6.P.2.1 - Understanding Atoms, Elements, and Molecules
6.P.2.2 - Arrangement Of Molecules In The Three States Of Matter
6.P.2.3 - Physical and Chemical Change
6.P.2.3 - Physical and Chemical Changes
Energy: Conservation and Transfer
6.P.3 Understand characteristics of energy transfer and interactions of matter and energy.
6.P.3.1 Illustrate the transfer of heat energy from warmer objects to cooler ones using examples of conduction,
radiation and convection and the effects that may result.
6.P.3.2 Explain the effects of electromagnetic waves on various materials to include absorption, scattering, and change in temperature.
6.P.3.3 Explain the suitability of materials for use in technological design based on a response to heat (to include conduction,
expansion, and contraction) and electrical energy (conductors and insulators).
6.P.3.1 - Conduction, Convection, Radiation
6.P.3.1 - Radiation, Conduction, Convection Song
6.P.3.1 - Conduction, Convection, and Radiation
6.P.3.1 - Heat Transfer Song
6.P.3.1 - Conduction,Convection,Radiation Experiments
6.P.3.1 - The Earth 3D: Convection Currents and Tectonic Plates
6.P.3.1 - Convection Currents
6.P.3.2 - Electromagnetic Wave
6.P.3.3 - Conductors and Insulators
6.P.3.3 - Insulator Versus Conductor
6.P.3.3 - Fire Water Balloon - Coolest Conductor of Heat
6.P.3.3 - Electricity - Conductors and Insulators
6.P.3.3 - Conservation of Energy Song
Forces and Motion
6.P.1 Understand the properties of waves and the wavelike property of energy in earthquakes, light and sound
6.P.1.1 Compare the properties of waves to the wavelike property of energy in earthquakes, light and sound.
6.P.1.2 Explain the relationship among visible light, the electromagnetic spectrum, and sight.
6.P.1.3 Explain the relationship among the rate of vibration, the medium through which vibrations travel, sound and hearing.
6.P.1.1 - Wave Characteristics & Introduction to Waves
6.P.1.1 - Wave Properties
6.P.1.1 - Properties of Waves
6.P.1.1 - Properties of Waves
6.P.1.1 - Transverse and Longitudinal Waves
6.P.1.1 - Sound, Vibration, Wave Characteristics
6.P.1.1 - Two Types of Waves: Longitudinal vs. Transverse
6.P.1.2 - The Electromagnetic Spectrum
6.P.1.2 - Radio Waves
6.P.1.2 - Visible Light Waves
6.P.1.2 - Electromagnetic Spectrum Song
6.P.1.2 - Light and Color with Bill Nye
6.P.1.2 - The Electromagnetic Spectrum Song
6.P.1.2 - Refraction of Light Experiment
6.P.1.2 - The Electromagnetic Spectrum and Solar Energy
6.P.1.3 - Here's How You Can See Soundwaves!
6.P.1.3 - What Is Up With Noises?
6.P.1.3 - Science of Sound
6.P.1.3 - Bill Nye - Sound
6.P.1.3 - How Loud Is A Slithering Snail?