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  1. .gitattributes +21 -0
  2. Lever_Balance_Conditions/.DS_Store +0 -0
  3. Lever_Balance_Conditions/Boundary_Frames/Lever_Balance_Conditions_10_Final_Frame.png +3 -0
  4. Lever_Balance_Conditions/Boundary_Frames/Lever_Balance_Conditions_10_Initial_Frame.png +3 -0
  5. Lever_Balance_Conditions/Boundary_Frames/Lever_Balance_Conditions_11_Final_Frame.png +3 -0
  6. Lever_Balance_Conditions/Boundary_Frames/Lever_Balance_Conditions_11_Initial_Frame.png +3 -0
  7. Lever_Balance_Conditions/Boundary_Frames/Lever_Balance_Conditions_12_Final_Frame.png +3 -0
  8. Lever_Balance_Conditions/Boundary_Frames/Lever_Balance_Conditions_12_Initial_Frame.png +3 -0
  9. Lever_Balance_Conditions/Boundary_Frames/Lever_Balance_Conditions_13_Final_Frame.png +3 -0
  10. Lever_Balance_Conditions/Boundary_Frames/Lever_Balance_Conditions_13_Initial_Frame.png +3 -0
  11. Lever_Balance_Conditions/Boundary_Frames/Lever_Balance_Conditions_14_Final_Frame.png +3 -0
  12. Lever_Balance_Conditions/Boundary_Frames/Lever_Balance_Conditions_14_Initial_Frame.png +3 -0
  13. Lever_Balance_Conditions/Boundary_Frames/Lever_Balance_Conditions_15_Final_Frame.png +3 -0
  14. Lever_Balance_Conditions/Boundary_Frames/Lever_Balance_Conditions_15_Initial_Frame.png +3 -0
  15. Lever_Balance_Conditions/Boundary_Frames/Lever_Balance_Conditions_16_Final_Frame.png +3 -0
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  17. Lever_Balance_Conditions/Boundary_Frames/Lever_Balance_Conditions_17_Final_Frame.png +3 -0
  18. Lever_Balance_Conditions/Boundary_Frames/Lever_Balance_Conditions_17_Initial_Frame.png +3 -0
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  20. Lever_Balance_Conditions/Boundary_Frames/Lever_Balance_Conditions_18_Initial_Frame.png +3 -0
  21. Lever_Balance_Conditions/Boundary_Frames/Lever_Balance_Conditions_19_Final_Frame.png +3 -0
  22. Lever_Balance_Conditions/Boundary_Frames/Lever_Balance_Conditions_19_Initial_Frame.png +3 -0
  23. Lever_Balance_Conditions/Boundary_Frames/Lever_Balance_Conditions_1_Final_Frame.png +3 -0
  24. Lever_Balance_Conditions/Boundary_Frames/Lever_Balance_Conditions_1_Initial_Frame.png +3 -0
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  46. Lever_Balance_Conditions/data_lever_balance_scene_en.json +170 -0
  47. Lever_Balance_Conditions/data_lever_balance_scene_object_law_en.json +170 -0
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  49. Lever_Balance_Conditions/video/Lever_Balance_Conditions_10.mov +3 -0
  50. Lever_Balance_Conditions/video/Lever_Balance_Conditions_11.mov +3 -0
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+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced. A lightweight object is suspended on the left side of the lever, farther from the fulcrum; a heavy object is suspended on the right side, closer to the fulcrum."
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+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced. Two heavy objects are suspended on the left side of the lever; one lightweight object is suspended on the right side."
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+ },
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+ {
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+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced. Objects of equal weight are suspended on both sides of the lever, at equal distances from the fulcrum."
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+ },
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+ {
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+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced. A heavy object is suspended on the left side of the lever, with no object suspended on the right side."
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+ },
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+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced. A heavy object is suspended on the left side of the lever, with no object suspended on the right side."
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+ },
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+ {
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+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced. A heavy object is suspended on the left side of the lever, closer to the fulcrum."
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+ },
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+ "Final Frame": "Boundary_Frames/Lever_Balance_Conditions_8_Final_Frame.png",
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+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced. One object is suspended on the left side of the lever; two objects are suspended on the right side, with the total weight on both sides being equal."
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+ },
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+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced. One object is suspended on the left side of the lever; two objects are suspended on the right side, with the total weight on both sides being equal."
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+ },
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+ "Final Frame": "Boundary_Frames/Lever_Balance_Conditions_10_Final_Frame.png",
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+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced. One lightweight object is suspended on the left side of the lever; four objects are suspended on the right side."
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+ },
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+ {
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+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced. A lightweight object is suspended on the left side of the lever, farther from the fulcrum."
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+ },
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+ {
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+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced. A lightweight object is suspended on the left side of the lever, farther from the fulcrum."
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+ },
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+ {
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+ "Final Frame": "Boundary_Frames/Lever_Balance_Conditions_13_Final_Frame.png",
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+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced. A lightweight object is suspended on the left side of the lever, farther from the fulcrum."
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+ },
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+ {
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+ "Category": "Lever Balance Condition",
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+ "Final Frame": "Boundary_Frames/Lever_Balance_Conditions_14_Final_Frame.png",
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+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced. One object is suspended on each side of the lever at equal distances from the fulcrum, with the right side object being heavier."
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+ },
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+ {
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+ "Video Path (Relative)": "video/Lever_Balance_Conditions_15.mov",
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+ "Category": "Lever Balance Condition",
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+ "Final Frame": "Boundary_Frames/Lever_Balance_Conditions_15_Final_Frame.png",
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+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced. A lightweight object is suspended on the left side of the lever, farther from the fulcrum."
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+ },
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+ {
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+ "Category": "Lever Balance Condition",
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+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced. One object is suspended on each side of the lever at equal distances from the fulcrum, with the left side object being lighter."
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+ },
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+ {
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+ "Final Frame": "Boundary_Frames/Lever_Balance_Conditions_17_Final_Frame.png",
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+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced. Two objects are suspended on each side of the lever. From left to right, the four objects are H, F, H, F. The left H object is farthest from the fulcrum, the left F and right F objects are equidistant from the fulcrum and closer, and the right H object is closest to the fulcrum."
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+ {
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+ "Final Frame": "Boundary_Frames/Lever_Balance_Conditions_18_Final_Frame.png",
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+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced. Three objects (F, H, G from left to right) are suspended on the left side; four objects (G, H, E, F from left to right) are suspended on the right side. The left F and right F are equidistant from the fulcrum and farthest, followed by the right E object, the left H and right H are equidistant and closer, and the left G and right G are equidistant and closest to the fulcrum."
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+ },
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+ {
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+ "Final Frame": "Boundary_Frames/Lever_Balance_Conditions_19_Final_Frame.png",
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+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced. Three objects (F, H, G from left to right) are suspended on the left side; three objects (G, H, F from left to right) are suspended on the right side. The left F and right F are equidistant from the fulcrum and farthest, the left H and right H are equidistant and closer, and the left G and right G are equidistant and closest to the fulcrum."
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+ },
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+ {
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+ "Category": "Lever Balance Condition",
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+ "Final Frame": "Boundary_Frames/Lever_Balance_Conditions_20_Final_Frame.png",
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+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced. Three lightweight objects are suspended on the left side of the lever; one heavy object is suspended on the right side, with the right object being heavier than any individual object on the left."
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+ },
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+ {
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+ "Video Name": "Lever_Balance_Conditions_21.mov",
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+ "Video Path (Relative)": "video/Lever_Balance_Conditions_21.mov",
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+ "Category": "Lever Balance Condition",
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+ "Initial Frame": "Boundary_Frames/Lever_Balance_Conditions_21_Initial_Frame.png",
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+ "Final Frame": "Boundary_Frames/Lever_Balance_Conditions_21_Final_Frame.png",
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+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced. A heavy object is suspended on the left side of the lever, closer to the fulcrum."
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+ }
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+ ]
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+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced."
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+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced."
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+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced."
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+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced."
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+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced."
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+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced."
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+ "Category": "Lever Balance Condition",
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+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced."
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+ "Category": "Lever Balance Condition",
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+ "Final Frame": "Boundary_Frames/Lever_Balance_Conditions_10_Final_Frame.png",
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+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced."
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+ {
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+ "Video Path (Relative)": "video/Lever_Balance_Conditions_11.mov",
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+ "Category": "Lever Balance Condition",
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+ "Final Frame": "Boundary_Frames/Lever_Balance_Conditions_11_Final_Frame.png",
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+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced."
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+ },
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+ {
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+ "Video Name": "Lever_Balance_Conditions_12.mov",
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+ "Category": "Lever Balance Condition",
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+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced."
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+ },
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+ {
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+ "Video Name": "Lever_Balance_Conditions_13.mov",
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+ "Category": "Lever Balance Condition",
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+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced."
105
+ },
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+ {
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+ "Video Name": "Lever_Balance_Conditions_14.mov",
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+ "Video Path (Relative)": "video/Lever_Balance_Conditions_14.mov",
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+ "Category": "Lever Balance Condition",
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+ "Initial Frame": "Boundary_Frames/Lever_Balance_Conditions_14_Initial_Frame.png",
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+ "Final Frame": "Boundary_Frames/Lever_Balance_Conditions_14_Final_Frame.png",
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+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced."
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+ },
114
+ {
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+ "Video Name": "Lever_Balance_Conditions_15.mov",
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+ "Video Path (Relative)": "video/Lever_Balance_Conditions_15.mov",
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+ "Category": "Lever Balance Condition",
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+ "Final Frame": "Boundary_Frames/Lever_Balance_Conditions_15_Final_Frame.png",
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+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced."
121
+ },
122
+ {
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+ "Video Name": "Lever_Balance_Conditions_16.mov",
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+ "Video Path (Relative)": "video/Lever_Balance_Conditions_16.mov",
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+ "Category": "Lever Balance Condition",
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+ "Initial Frame": "Boundary_Frames/Lever_Balance_Conditions_16_Initial_Frame.png",
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+ "Final Frame": "Boundary_Frames/Lever_Balance_Conditions_16_Final_Frame.png",
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+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced."
129
+ },
130
+ {
131
+ "Video Name": "Lever_Balance_Conditions_17.mov",
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+ "Video Path (Relative)": "video/Lever_Balance_Conditions_17.mov",
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+ "Category": "Lever Balance Condition",
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+ "Initial Frame": "Boundary_Frames/Lever_Balance_Conditions_17_Initial_Frame.png",
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+ "Final Frame": "Boundary_Frames/Lever_Balance_Conditions_17_Final_Frame.png",
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+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced."
137
+ },
138
+ {
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+ "Video Name": "Lever_Balance_Conditions_18.mov",
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+ "Video Path (Relative)": "video/Lever_Balance_Conditions_18.mov",
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+ "Category": "Lever Balance Condition",
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+ "Initial Frame": "Boundary_Frames/Lever_Balance_Conditions_18_Initial_Frame.png",
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+ "Final Frame": "Boundary_Frames/Lever_Balance_Conditions_18_Final_Frame.png",
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+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced."
145
+ },
146
+ {
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+ "Video Name": "Lever_Balance_Conditions_19.mov",
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+ "Video Path (Relative)": "video/Lever_Balance_Conditions_19.mov",
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+ "Category": "Lever Balance Condition",
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+ "Final Frame": "Boundary_Frames/Lever_Balance_Conditions_19_Final_Frame.png",
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+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced."
153
+ },
154
+ {
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+ "Video Name": "Lever_Balance_Conditions_20.mov",
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+ "Video Path (Relative)": "video/Lever_Balance_Conditions_20.mov",
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+ "Category": "Lever Balance Condition",
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+ "Initial Frame": "Boundary_Frames/Lever_Balance_Conditions_20_Initial_Frame.png",
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+ "Final Frame": "Boundary_Frames/Lever_Balance_Conditions_20_Final_Frame.png",
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+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced."
161
+ },
162
+ {
163
+ "Video Name": "Lever_Balance_Conditions_21.mov",
164
+ "Video Path (Relative)": "video/Lever_Balance_Conditions_21.mov",
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+ "Category": "Lever Balance Condition",
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+ "Initial Frame": "Boundary_Frames/Lever_Balance_Conditions_21_Initial_Frame.png",
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+ "Final Frame": "Boundary_Frames/Lever_Balance_Conditions_21_Final_Frame.png",
168
+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced."
169
+ }
170
+ ]
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1
+ [
2
+ {
3
+ "Video Name": "Lever_Balance_Conditions_1.mov",
4
+ "Video Path (Relative)": "video/Lever_Balance_Conditions_1.mov",
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+ "Category": "Lever Balance Condition",
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+ "Initial Frame": "Boundary_Frames/Lever_Balance_Conditions_1_Initial_Frame.png",
7
+ "Final Frame": "Boundary_Frames/Lever_Balance_Conditions_1_Final_Frame.png",
8
+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced. A lightweight object is suspended on the left side of the lever, farther from the fulcrum; a heavy object is suspended on the right side, closer to the fulcrum. This demonstrates the principle of lever balance: the lever is in equilibrium when the product of force and distance on one side equals the product on the other side (Force �� Distance = Force �� Distance)."
9
+ },
10
+ {
11
+ "Video Name": "Lever_Balance_Conditions_2.mov",
12
+ "Video Path (Relative)": "video/Lever_Balance_Conditions_2.mov",
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+ "Category": "Lever Balance Condition",
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+ "Initial Frame": "Boundary_Frames/Lever_Balance_Conditions_2_Initial_Frame.png",
15
+ "Final Frame": "Boundary_Frames/Lever_Balance_Conditions_2_Final_Frame.png",
16
+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced. A lightweight object is suspended on the left side of the lever, farther from the fulcrum; a heavy object is suspended on the right side, closer to the fulcrum. This demonstrates the principle of lever balance: the lever is in equilibrium when the product of force and distance on one side equals the product on the other side (Force �� Distance = Force �� Distance)."
17
+ },
18
+ {
19
+ "Video Name": "Lever_Balance_Conditions_3.mov",
20
+ "Video Path (Relative)": "video/Lever_Balance_Conditions_3.mov",
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+ "Category": "Lever Balance Condition",
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+ "Initial Frame": "Boundary_Frames/Lever_Balance_Conditions_3_Initial_Frame.png",
23
+ "Final Frame": "Boundary_Frames/Lever_Balance_Conditions_3_Final_Frame.png",
24
+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced. Two heavy objects are suspended on the left side of the lever; one lightweight object is suspended on the right side. This demonstrates the principle of lever balance: the lever is in equilibrium when the product of force and distance on one side equals the product on the other side (Force �� Distance = Force �� Distance)."
25
+ },
26
+ {
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+ "Video Name": "Lever_Balance_Conditions_4.mov",
28
+ "Video Path (Relative)": "video/Lever_Balance_Conditions_4.mov",
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+ "Category": "Lever Balance Condition",
30
+ "Initial Frame": "Boundary_Frames/Lever_Balance_Conditions_4_Initial_Frame.png",
31
+ "Final Frame": "Boundary_Frames/Lever_Balance_Conditions_4_Final_Frame.png",
32
+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced. Objects of equal weight are suspended on both sides of the lever, at equal distances from the fulcrum. This demonstrates the principle of lever balance: the lever is in equilibrium when the product of force and distance on one side equals the product on the other side (Force �� Distance = Force �� Distance)."
33
+ },
34
+ {
35
+ "Video Name": "Lever_Balance_Conditions_5.mov",
36
+ "Video Path (Relative)": "video/Lever_Balance_Conditions_5.mov",
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+ "Category": "Lever Balance Condition",
38
+ "Initial Frame": "Boundary_Frames/Lever_Balance_Conditions_5_Initial_Frame.png",
39
+ "Final Frame": "Boundary_Frames/Lever_Balance_Conditions_5_Final_Frame.png",
40
+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced. A heavy object is suspended on the left side of the lever, with no object suspended on the right side. This demonstrates the principle of lever balance: the lever is in equilibrium when the product of force and distance on one side equals the product on the other side (Force �� Distance = Force �� Distance)."
41
+ },
42
+ {
43
+ "Video Name": "Lever_Balance_Conditions_6.mov",
44
+ "Video Path (Relative)": "video/Lever_Balance_Conditions_6.mov",
45
+ "Category": "Lever Balance Condition",
46
+ "Initial Frame": "Boundary_Frames/Lever_Balance_Conditions_6_Initial_Frame.png",
47
+ "Final Frame": "Boundary_Frames/Lever_Balance_Conditions_6_Final_Frame.png",
48
+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced. A heavy object is suspended on the left side of the lever, with no object suspended on the right side. This demonstrates the principle of lever balance: the lever is in equilibrium when the product of force and distance on one side equals the product on the other side (Force �� Distance = Force �� Distance)."
49
+ },
50
+ {
51
+ "Video Name": "Lever_Balance_Conditions_7.mov",
52
+ "Video Path (Relative)": "video/Lever_Balance_Conditions_7.mov",
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+ "Category": "Lever Balance Condition",
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+ "Initial Frame": "Boundary_Frames/Lever_Balance_Conditions_7_Initial_Frame.png",
55
+ "Final Frame": "Boundary_Frames/Lever_Balance_Conditions_7_Final_Frame.png",
56
+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced. A heavy object is suspended on the left side of the lever, closer to the fulcrum. This demonstrates the principle of lever balance: the lever is in equilibrium when the product of force and distance on one side equals the product on the other side (Force �� Distance = Force �� Distance)."
57
+ },
58
+ {
59
+ "Video Name": "Lever_Balance_Conditions_8.mov",
60
+ "Video Path (Relative)": "video/Lever_Balance_Conditions_8.mov",
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+ "Category": "Lever Balance Condition",
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+ "Initial Frame": "Boundary_Frames/Lever_Balance_Conditions_8_Initial_Frame.png",
63
+ "Final Frame": "Boundary_Frames/Lever_Balance_Conditions_8_Final_Frame.png",
64
+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced. One object is suspended on the left side of the lever; two objects are suspended on the right side, with the total weight on both sides being equal. This demonstrates the principle of lever balance: the lever is in equilibrium when the product of force and distance on one side equals the product on the other side (Force �� Distance = Force �� Distance)."
65
+ },
66
+ {
67
+ "Video Name": "Lever_Balance_Conditions_9.mov",
68
+ "Video Path (Relative)": "video/Lever_Balance_Conditions_9.mov",
69
+ "Category": "Lever Balance Condition",
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+ "Initial Frame": "Boundary_Frames/Lever_Balance_Conditions_9_Initial_Frame.png",
71
+ "Final Frame": "Boundary_Frames/Lever_Balance_Conditions_9_Final_Frame.png",
72
+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced. One object is suspended on the left side of the lever; two objects are suspended on the right side, with the total weight on both sides being equal. This demonstrates the principle of lever balance: the lever is in equilibrium when the product of force and distance on one side equals the product on the other side (Force �� Distance = Force �� Distance)."
73
+ },
74
+ {
75
+ "Video Name": "Lever_Balance_Conditions_10.mov",
76
+ "Video Path (Relative)": "video/Lever_Balance_Conditions_10.mov",
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+ "Category": "Lever Balance Condition",
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+ "Initial Frame": "Boundary_Frames/Lever_Balance_Conditions_10_Initial_Frame.png",
79
+ "Final Frame": "Boundary_Frames/Lever_Balance_Conditions_10_Final_Frame.png",
80
+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced. One lightweight object is suspended on the left side of the lever; four objects are suspended on the right side. This demonstrates the principle of lever balance: the lever is in equilibrium when the product of force and distance on one side equals the product on the other side (Force �� Distance = Force �� Distance)."
81
+ },
82
+ {
83
+ "Video Name": "Lever_Balance_Conditions_11.mov",
84
+ "Video Path (Relative)": "video/Lever_Balance_Conditions_11.mov",
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+ "Category": "Lever Balance Condition",
86
+ "Initial Frame": "Boundary_Frames/Lever_Balance_Conditions_11_Initial_Frame.png",
87
+ "Final Frame": "Boundary_Frames/Lever_Balance_Conditions_11_Final_Frame.png",
88
+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced. A lightweight object is suspended on the left side of the lever, farther from the fulcrum. This demonstrates the principle of lever balance: the lever is in equilibrium when the product of force and distance on one side equals the product on the other side (Force �� Distance = Force �� Distance)."
89
+ },
90
+ {
91
+ "Video Name": "Lever_Balance_Conditions_12.mov",
92
+ "Video Path (Relative)": "video/Lever_Balance_Conditions_12.mov",
93
+ "Category": "Lever Balance Condition",
94
+ "Initial Frame": "Boundary_Frames/Lever_Balance_Conditions_12_Initial_Frame.png",
95
+ "Final Frame": "Boundary_Frames/Lever_Balance_Conditions_12_Final_Frame.png",
96
+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced. A lightweight object is suspended on the left side of the lever, farther from the fulcrum. This demonstrates the principle of lever balance: the lever is in equilibrium when the product of force and distance on one side equals the product on the other side (Force �� Distance = Force �� Distance)."
97
+ },
98
+ {
99
+ "Video Name": "Lever_Balance_Conditions_13.mov",
100
+ "Video Path (Relative)": "video/Lever_Balance_Conditions_13.mov",
101
+ "Category": "Lever Balance Condition",
102
+ "Initial Frame": "Boundary_Frames/Lever_Balance_Conditions_13_Initial_Frame.png",
103
+ "Final Frame": "Boundary_Frames/Lever_Balance_Conditions_13_Final_Frame.png",
104
+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced. A lightweight object is suspended on the left side of the lever, farther from the fulcrum. This demonstrates the principle of lever balance: the lever is in equilibrium when the product of force and distance on one side equals the product on the other side (Force �� Distance = Force �� Distance)."
105
+ },
106
+ {
107
+ "Video Name": "Lever_Balance_Conditions_14.mov",
108
+ "Video Path (Relative)": "video/Lever_Balance_Conditions_14.mov",
109
+ "Category": "Lever Balance Condition",
110
+ "Initial Frame": "Boundary_Frames/Lever_Balance_Conditions_14_Initial_Frame.png",
111
+ "Final Frame": "Boundary_Frames/Lever_Balance_Conditions_14_Final_Frame.png",
112
+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced. One object is suspended on each side of the lever at equal distances from the fulcrum, with the right side object being heavier. This demonstrates the principle of lever balance: the lever is in equilibrium when the product of force and distance on one side equals the product on the other side (Force �� Distance = Force �� Distance)."
113
+ },
114
+ {
115
+ "Video Name": "Lever_Balance_Conditions_15.mov",
116
+ "Video Path (Relative)": "video/Lever_Balance_Conditions_15.mov",
117
+ "Category": "Lever Balance Condition",
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+ "Initial Frame": "Boundary_Frames/Lever_Balance_Conditions_15_Initial_Frame.png",
119
+ "Final Frame": "Boundary_Frames/Lever_Balance_Conditions_15_Final_Frame.png",
120
+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced. A lightweight object is suspended on the left side of the lever, farther from the fulcrum. This demonstrates the principle of lever balance: the lever is in equilibrium when the product of force and distance on one side equals the product on the other side (Force �� Distance = Force �� Distance)."
121
+ },
122
+ {
123
+ "Video Name": "Lever_Balance_Conditions_16.mov",
124
+ "Video Path (Relative)": "video/Lever_Balance_Conditions_16.mov",
125
+ "Category": "Lever Balance Condition",
126
+ "Initial Frame": "Boundary_Frames/Lever_Balance_Conditions_16_Initial_Frame.png",
127
+ "Final Frame": "Boundary_Frames/Lever_Balance_Conditions_16_Final_Frame.png",
128
+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced. One object is suspended on each side of the lever at equal distances from the fulcrum, with the left side object being lighter. This demonstrates the principle of lever balance: the lever is in equilibrium when the product of force and distance on one side equals the product on the other side (Force �� Distance = Force �� Distance)."
129
+ },
130
+ {
131
+ "Video Name": "Lever_Balance_Conditions_17.mov",
132
+ "Video Path (Relative)": "video/Lever_Balance_Conditions_17.mov",
133
+ "Category": "Lever Balance Condition",
134
+ "Initial Frame": "Boundary_Frames/Lever_Balance_Conditions_17_Initial_Frame.png",
135
+ "Final Frame": "Boundary_Frames/Lever_Balance_Conditions_17_Final_Frame.png",
136
+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced. Two objects are suspended on each side of the lever. From left to right, the four objects are H, F, H, F. The left H object is farthest from the fulcrum, the left F and right F objects are equidistant from the fulcrum and closer, and the right H object is closest to the fulcrum. This demonstrates the principle of lever balance: the lever is in equilibrium when the product of force and distance on one side equals the product on the other side (Force �� Distance = Force �� Distance)."
137
+ },
138
+ {
139
+ "Video Name": "Lever_Balance_Conditions_18.mov",
140
+ "Video Path (Relative)": "video/Lever_Balance_Conditions_18.mov",
141
+ "Category": "Lever Balance Condition",
142
+ "Initial Frame": "Boundary_Frames/Lever_Balance_Conditions_18_Initial_Frame.png",
143
+ "Final Frame": "Boundary_Frames/Lever_Balance_Conditions_18_Final_Frame.png",
144
+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced. Three objects (F, H, G from left to right) are suspended on the left side; four objects (G, H, E, F from left to right) are suspended on the right side. The left F and right F are equidistant from the fulcrum and farthest, followed by the right E object, the left H and right H are equidistant and closer, and the left G and right G are equidistant and closest to the fulcrum. This demonstrates the principle of lever balance: the lever is in equilibrium when the product of force and distance on one side equals the product on the other side (Force �� Distance = Force �� Distance)."
145
+ },
146
+ {
147
+ "Video Name": "Lever_Balance_Conditions_19.mov",
148
+ "Video Path (Relative)": "video/Lever_Balance_Conditions_19.mov",
149
+ "Category": "Lever Balance Condition",
150
+ "Initial Frame": "Boundary_Frames/Lever_Balance_Conditions_19_Initial_Frame.png",
151
+ "Final Frame": "Boundary_Frames/Lever_Balance_Conditions_19_Final_Frame.png",
152
+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced. Three objects (F, H, G from left to right) are suspended on the left side; three objects (G, H, F from left to right) are suspended on the right side. The left F and right F are equidistant from the fulcrum and farthest, the left H and right H are equidistant and closer, and the left G and right G are equidistant and closest to the fulcrum. This demonstrates the principle of lever balance: the lever is in equilibrium when the product of force and distance on one side equals the product on the other side (Force �� Distance = Force �� Distance)."
153
+ },
154
+ {
155
+ "Video Name": "Lever_Balance_Conditions_20.mov",
156
+ "Video Path (Relative)": "video/Lever_Balance_Conditions_20.mov",
157
+ "Category": "Lever Balance Condition",
158
+ "Initial Frame": "Boundary_Frames/Lever_Balance_Conditions_20_Initial_Frame.png",
159
+ "Final Frame": "Boundary_Frames/Lever_Balance_Conditions_20_Final_Frame.png",
160
+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced. Three lightweight objects are suspended on the left side of the lever; one heavy object is suspended on the right side, with the right object being heavier than any individual object on the left. This demonstrates the principle of lever balance: the lever is in equilibrium when the product of force and distance on one side equals the product on the other side (Force �� Distance = Force �� Distance)."
161
+ },
162
+ {
163
+ "Video Name": "Lever_Balance_Conditions_21.mov",
164
+ "Video Path (Relative)": "video/Lever_Balance_Conditions_21.mov",
165
+ "Category": "Lever Balance Condition",
166
+ "Initial Frame": "Boundary_Frames/Lever_Balance_Conditions_21_Initial_Frame.png",
167
+ "Final Frame": "Boundary_Frames/Lever_Balance_Conditions_21_Final_Frame.png",
168
+ "Prompt": "In a lever balance condition experiment, against a blue background, a lever is horizontally mounted on a fulcrum with support pillars underneath keeping it balanced. A heavy object is suspended on the left side of the lever, closer to the fulcrum. This demonstrates the principle of lever balance: the lever is in equilibrium when the product of force and distance on one side equals the product on the other side (Force �� Distance = Force �� Distance)."
169
+ }
170
+ ]
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