{
  "kind": "atomency-assignment-export",
  "version": 1,
  "exportedAt": "2026-05-26T00:00:00.000Z",
  "source": "Atomency Learning Plan + Clever Deployment Guide",
  "url": "https://atomency.com/lab.html?assign=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-wmAQEh7wRLR3ynABBBCiGJcsySyEJZEIVCcHKAohjYJRUghbsdBsSsm1-bop0uXI2i0YlaC-bJlioHYp2+KcIlpQioAABnlEBFSHEAIU3bwxxAER207XgBQdOspF8dIFCURhz1MUxlgQYl+TIZT8ijEh1GdB98WfLJlkdUJwl0d0FU+eUgA",
  "tasks": [
    {
      "t": "inquiry",
      "d": "reactions",
      "p": "Launch Reaction Kinetics and compare a low-temperature trial with a higher-temperature trial."
    },
    {
      "t": "inquiry",
      "d": "thermo",
      "p": "Launch Thermochemistry and inspect how heat transfer is represented."
    },
    {
      "t": "data-table",
      "d": "Record variable changed, observed particle behavior, energy change, and explanation note."
    },
    {
      "t": "mc",
      "d": "{\"prompt\":\"Why does increasing temperature usually increase reaction rate?\",\"options\":[\"More particles have enough energy to react\",\"Atoms become heavier\",\"The balanced equation changes\",\"Products stop forming\"],\"answer\":0}"
    },
    {
      "t": "question",
      "d": "Explain how energy evidence supports a claim about reaction rate or heat transfer."
    }
  ],
  "config": {
    "v": 3,
    "title": "Thermochemistry and Kinetics: Energy Evidence",
    "instructions": "Connect particle collisions, activation energy, and heat transfer. Record evidence from both the kinetics and thermo modules.",
    "strict": false,
    "timerMin": null,
    "formUrl": null,
    "ngss": [
      "HS-PS1-4",
      "HS-PS1-5"
    ],
    "tasks": [
      {
        "t": "inquiry",
        "d": "reactions",
        "p": "Launch Reaction Kinetics and compare a low-temperature trial with a higher-temperature trial."
      },
      {
        "t": "inquiry",
        "d": "thermo",
        "p": "Launch Thermochemistry and inspect how heat transfer is represented."
      },
      {
        "t": "data-table",
        "d": "Record variable changed, observed particle behavior, energy change, and explanation note."
      },
      {
        "t": "mc",
        "d": "{\"prompt\":\"Why does increasing temperature usually increase reaction rate?\",\"options\":[\"More particles have enough energy to react\",\"Atoms become heavier\",\"The balanced equation changes\",\"Products stop forming\"],\"answer\":0}"
      },
      {
        "t": "question",
        "d": "Explain how energy evidence supports a claim about reaction rate or heat transfer."
      }
    ]
  }
}