Disassembling Engineering Marvels: A Detailed Breakdown

、2x2 grid, 1080x1080, do this for 4 famous complex machines: canvas: "scientific editorial infographic" global_style: "ultra-realistic 3d, precision studio lighting, shallow dof, mechanical teardown aesthetic" title: "disassembled: the kinematics of [$machine]" layout_engine:   type: "exploded axonometric array"   connectors: "alignment axes with degrees-of-freedom arcs"   frame_shape: "chamfered rectangular"   flow_direction: "power input → transmission → control → output → housing" frames:   f1_input: { size: "xs", content: "semantic inference of [$machine] prime mover interface", ui_label: "input | torque origin | energy conversion" }   f2_transmission: { size: "s", content: "semantic inference of [$machine] force transfer stage", ui_label: "transmission | gear ratio | kinematic chain" }   f3_control: { size: "m", content: "semantic inference of [$machine] regulation mechanism", ui_label: "control | feedback linkage | damping system" }   f4_output: { size: "l", content: "semantic inference of [$machine] functional endpoint", ui_label: "output | work delivery | load interface" }   f5_assembly: { size: "xl", content: "full contextual view of [$machine] operational envelope", ui_label: "assembly | tolerance closure | service access" } side_panel: "dof counts, material specs, efficiency metrics, mechanical icons (bearing, spline, cam, seal)" halo_details: "cad wireframe overlays, stress distribution heatmaps, fastener torque callouts. reject generic wrenches or gear clipart."