{ "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=N4IgbiBcDMA0IBcCWCA2BTKICyB7DAxgK6oCGATgAQDKC5RBCR56lpAdgCaUBq1AogAUASpX5gkndOwKZ4SdgGc6DZLiVYAQkSSpuCABatSixUgDm7dNwC2+dMQyLYlAvkIJKy+o2alUlOgSUjLoLobSlADu5CjGlADC-KIsigAO6oroAHSUAKpZlBFiwdKylAByuAjoAEa4uADWlABmuFRpLJxIjEjqLri1WeRgpGrsLhzcLC0efezZIPDePQhQLf5Z8Mg26OTYClDsJKjwbeQ2eeSoRyfw7OamUADaIAAS1AC0gtQAjJ+-JbvL4-f7QEAAXW2JkaiheoDWkBAdkIJDkIE4WDeACYAPJAtJaHR6aJjPZsLiUBTpByeYqydh0fxsBC4GwueqUjjmDCTSkZMixBAAT0CpVCiwAvrAEVgUQ40UDMUiErjsQSibpuAQKJzKN1cAAPSTGSluGxpCisFCKLwGUhpVis0k1chSmWIOX2Rzo5UgCpvcHwQlI7Ratg2OzsJCkCncamOxhFIyBFotWmUXAtSiodSsS1Ici29R2h05EDS2VIzhjUifBCkWoYJVYBIsMlsIqNjDRFAGVrtGwkUguBlMgJjNkc9RSbiTmzOHN5z4FqhBE2hFyKe2OlwCigoYV87h5zNDPajcatchs5OsOxSVDuqvIggtpHAAA6IE6bLSCG-SBvwAdQMHp+wfdAAm3XASDnNJHQoHMFHQJCoiMdhKFqYlPDccgWEYVBhQAfm-WBv1wf95kUQDnm-HFcTI78A2gJiQFVbE2ISN4ABZvyhb8OEUKI9kA7FJQrD1EUQFp3xAL8fxvC0AKgb8AEFKHlH1XA4Vx1AbBRKH3KhOU4W0pi8ZBUACWpWHYdRjKpbNilM-UkAFdBbR1UInzYoSRPIQCVHQCTK09JEAEciE88Y5KSYRIEoUDwM0700Uoe19BTbx1HMGKxQ3cosyXKwV1IQtKBYNISDMdRiPyQoxhzVDlCKKJcFSx8z2GS9qKlCFJSAA", "tasks": [ { "t": "molecule", "d": "H2O", "p": "Build water and inspect the central atom, bond angle, and polarity evidence." }, { "t": "molecule", "d": "CO2", "p": "Build carbon dioxide and compare its shape to water." }, { "t": "molecule", "d": "NH3", "p": "Build ammonia and inspect the effect of lone pairs on shape." }, { "t": "data-table", "d": "Create a table with formula, central atom, bonded atoms, lone-pair evidence, shape, polarity, and one observation from the model." }, { "t": "mc", "d": "{\"prompt\":\"Which model should appear linear when built correctly?\",\"options\":[\"H2O\",\"NH3\",\"CO2\",\"CH4\"],\"answer\":2}" }, { "t": "tf", "d": "{\"prompt\":\"A molecule can contain polar bonds and still be nonpolar if the bond dipoles cancel.\",\"answer\":true}" }, { "t": "question", "d": "CER: Which molecule had the strongest evidence of lone-pair repulsion? Use at least two model observations." } ], "config": { "v": 3, "title": "Molecular Structure and VSEPR Evidence", "instructions": "Build the assigned molecules, collect structural evidence, then write a CER response. Use the Evidence Notebook for prediction, observation, and reflection.", "strict": false, "timerMin": null, "formUrl": null, "ngss": [ "HS-PS1-1", "HS-PS1-3" ], "tasks": [ { "t": "molecule", "d": "H2O", "p": "Build water and inspect the central atom, bond angle, and polarity evidence." }, { "t": "molecule", "d": "CO2", "p": "Build carbon dioxide and compare its shape to water." }, { "t": "molecule", "d": "NH3", "p": "Build ammonia and inspect the effect of lone pairs on shape." }, { "t": "data-table", "d": "Create a table with formula, central atom, bonded atoms, lone-pair evidence, shape, polarity, and one observation from the model." }, { "t": "mc", "d": "{\"prompt\":\"Which model should appear linear when built correctly?\",\"options\":[\"H2O\",\"NH3\",\"CO2\",\"CH4\"],\"answer\":2}" }, { "t": "tf", "d": "{\"prompt\":\"A molecule can contain polar bonds and still be nonpolar if the bond dipoles cancel.\",\"answer\":true}" }, { "t": "question", "d": "CER: Which molecule had the strongest evidence of lone-pair repulsion? Use at least two model observations." } ] } }