• Resource ID: R4SCI0034
    • Grade Range: 8–12
    • Subject: Science

    Newton's Law of Inertia

    This resource provides instructional resources for Newton's First Law, the law of inertia.

    • Resource ID: R4SCI0036
    • Grade Range: 8–12
    • Subject: Science

    Newton's Law of Action-Reaction

    This resource is to support TEKS (8)(6)(C), specifically the Newton's third law or the law of action-reaction.

    • Resource ID: E8WrM1L1
    • Grade Range: 8
    • Subject: ELA & Reading

    OnTrack logo Writing Literary Text with an Engaging Story Line

    You will learn how to write an imaginative story that sustains reader interest and includes well-paced action, an engaging story line, and a believable setting.

    • Resource ID: E8WrM1L2
    • Grade Range: 8
    • Subject: ELA & Reading

    OnTrack logo Write Literary Text That Develops Interesting Characters

    You will learn how to write an imaginative story that develops interesting characters and believable dialogue.

    • Resource ID: E8WrM1L3
    • Grade Range: 8
    • Subject: ELA & Reading

    OnTrack logo Write Literary Text That Uses Literary Strategies/Devices to Enhance the Style and Tone

    You will learn how to write an imaginative story that uses literary strategies/devices to enhance style and tone.

    • Resource ID: PM4L1
    • Grade Range: 8–12
    • Subject: Science

    OnTrack logo Waves—Properties

    Given diagrams, descriptions or illustrations, students will determine the properties of wave motion and wave propagation as they pass through different media.

    • Resource ID: R4SCI0054
    • Grade Range: 8
    • Subject: Science

    It's All About Cell Theory

    This resource provides flexible alternate or additional learning opportunities for students to recognize the development and components of the cell theory, TEKS (7)(12)(F).

    • Resource ID: CM3L3
    • Grade Range: 8–12
    • Subject: Science

    OnTrack logo Covalent Bonding: Electron Dot Diagrams

    Given descriptions, diagrams, scenarios, or chemical symbols, students will model covalent bonds using electron dot formula (Lewis structures).