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Playlist5 steps11 concepts74 min1 track

Electricity to Magnetism Bridge

Not started

Use the existing electricity recap, magnetic starter track, and Maxwell capstone surfaces to move into electromagnetism without turning the branch into a full LMS sequence.

This playlist is for the moment when the class is leaving core electricity and beginning magnetism. It does not replace the existing track system. It just groups the recap, the magnetic starter track, one induction checkpoint, and a capstone concept into one compact bridge.

The electricity recap reactivates the voltage and current story first, the magnetic starter track keeps field direction and induction in authored order, the induction challenge forces one clean Faraday/Lenz target, and the Maxwell synthesis page widens the branch toward the later wave story.

Electricity recapMagnetic starter trackInduction checkpointMaxwell synthesis

Educator note

Best used after the electricity track already exists in class memory but before the electromagnetism topic should open fully.

Entry diagnostic

Decide where to enter this path without opening a second testing system.

Reuse the magnetic-field and induction checkpoints to decide whether this bridge should stay on the electricity recap and magnetic track or jump ahead to the Maxwell capstone.

Start from the opening step0 / 2 probes ready

Check whether the bridge should stop at recap or jump to synthesis

Start from the opening step

No saved diagnostic checks are available yet, so the opening step is still the best entry into the collection.

Uses the same local-first concept, challenge, and track facts already saved in this browser.

Begin with Reopen the electricity track in recap mode
  1. ChallengeNot started7 checks

    Magnetic-field checkpoint

    Check whether current-made field direction already feels stable enough for a shorter bridge.

    No saved checkpoint attempt yet.

    B-fields
    Open Build the upward magnetic field
  2. ChallengeNot started7 checks

    Induction checkpoint

    Use the existing Faraday/Lenz challenge to see whether the bridge can widen directly into Maxwell synthesis.

    No saved checkpoint attempt yet.

    Faraday / Lenz
    Open High flux, zero emf

Shareable concept bundle

Package a compact launch path from this guided collection.

Keep the bundle lightweight: choose the collection entry points that matter, give the package a clear summary, and share one stable link back into the same topic, concept, track, and challenge surfaces that already exist.

Bundle progress below stays local-first and never rides along with the shared link.

Included entry points

Uncheck anything that should stay outside this shareable bundle.

Assignment mode

Save the current bundle selection as a stable assignment link.

This stays intentionally small. The assignment stores the selected guided-collection steps and an optional note, then learners reopen the same concept, track, topic, and challenge surfaces through one stable entry point.

Sign in to save a stable assignment link. Signed-out bundle sharing above still stays public.

5 assigned steps11 concepts74 min

Save the current draft to mint one stable assignment entry point for this exact selection.

Launch starts on Reopen the electricity track in recap mode. Assignment completion is derived from the same concept, starter-track, and challenge facts already used elsewhere in the product.

Bundle launch order

Keep the selected bundle steps explicit.

Launch starts on Reopen the electricity track in recap mode
  1. 1Reopen the electricity track in recap modeReferenceUse the existing recap view when the class needs a short voltage-and-circuit refresh before magnetic fields take over.
  2. 2Run the magnetic fields starter trackStarter trackKeep current-made magnetic fields, induction, and magnetic force in the authored order already built into the catalog.
  3. 3Use the Faraday/Lenz checkpoint challengeChallengeSeparate strong linked flux from near-zero emf in one centered-magnet pass before the class jumps toward broader field synthesis.
  4. 4Add Maxwell's four-law synthesis as the capstone conceptConceptUse the compact four-law page to show how the magnetic branch widens toward the later electromagnetic-wave story.
  5. 5Finish on the electromagnetism topic routeTopic routeOpen the topic page when learners are ready to see how induction, force, Maxwell synthesis, and electromagnetic waves sit on one branch.

Ordered steps

Reuse the current surfaces in one bounded sequence.

Every step still lands in an existing topic page, concept page, starter track, or challenge flow. The collection only keeps that order explicit.

1 starter track references stay inside the current track system.

  1. 1Reference surfaceNot startedNext step

    Reopen the electricity track in recap mode

    Use the existing recap view when the class needs a short voltage-and-circuit refresh before magnetic fields take over.

    Prepare the branch without replaying the full electricity track from the beginning.

    Open this reference surface before the linked concepts start accumulating saved progress.

    8 minReference surfaceE-fieldsPotentialCircuits+3 more concepts
    Open electricity recap
  2. 2Starter trackNot started

    Run the magnetic fields starter track

    Keep current-made magnetic fields, induction, and magnetic force in the authored order already built into the catalog.

    Reuse the compact magnetic branch without introducing a new course shell.

    Magnetic Fields opens this track and sets up the rest of the path.

    36 min3 concepts3 checkpointsB-fieldsFaraday / LenzMagnetic force
    Start with B-fieldsOpen track page
  3. 3ChallengeNot started

    Use the Faraday/Lenz checkpoint challenge

    Separate strong linked flux from near-zero emf in one centered-magnet pass before the class jumps toward broader field synthesis.

    Give the bridge one specific induction success condition.

    No saved challenge activity yet for this step.

    10 minCore7 checksFaraday / Lenz
    Open challengeOpen concept
  4. 4ConceptNot started

    Add Maxwell's four-law synthesis as the capstone concept

    Use the compact four-law page to show how the magnetic branch widens toward the later electromagnetic-wave story.

    Close the bridge with one concept that connects the local magnetic story to the larger field picture.

    No saved progress yet for Maxwell's Equations Synthesis.

    14 minMaxwell synthesis
    Start concept
  5. 5Topic routeNot started

    Finish on the electromagnetism topic route

    Open the topic page when learners are ready to see how induction, force, Maxwell synthesis, and electromagnetic waves sit on one branch.

    Re-situate the collection inside the wider catalog without building a separate curriculum destination.

    No saved progress yet in the 5 linked concepts.

    6 minTopic routeB-fieldsFaraday / LenzMagnetic force+2 more concepts
    Open electromagnetism topic