// ~->[DNET-1]->~ // File created by an unlicensed user using Netica 5.04 on 04/09/2018 at 07:32:19 PM. bnet miniPP_CM { autoupdate = TRUE; title = "Physics Playground Excerpt"; comment = "A few selected nodes from Physics Playground for testing Peanut/PNetica"; whenchanged = 1523316533; visual V1 { defdispform = BELIEFBARS; nodelabeling = TITLE; NodeMaxNumEntries = 50; nodefont = font {shape= "Arial"; size= 9;}; linkfont = font {shape= "Arial"; size= 9;}; windowposn = (451, 0, 902, 545); resolution = 72; drawingbounds = (1515, 782); showpagebreaks = FALSE; usegrid = TRUE; gridspace = (6, 6); NodeSet Node {BuiltIn = 1; Color = 0x00E1E1E1;}; NodeSet Nature {BuiltIn = 1; Color = 0x00F8EED2;}; NodeSet Deterministic {BuiltIn = 1; Color = 0x00D3CAA6;}; NodeSet Finding {BuiltIn = 1; Color = 0x00C8C8C8;}; NodeSet Constant {BuiltIn = 1; Color = 0x00FFFFFF;}; NodeSet ConstantValue {BuiltIn = 1; Color = 0x00FFFFB4;}; NodeSet Utility {BuiltIn = 1; Color = 0x00FFBDBD;}; NodeSet Decision {BuiltIn = 1; Color = 0x00DEE8FF;}; NodeSet Documentation {BuiltIn = 1; Color = 0x00F0FAFA;}; NodeSet Title {BuiltIn = 1; Color = 0x00FFFFFF;}; NodeSet HighLevel {Color = 0x00FF8080;}; NodeSet Proficiency {Disabled = 1; Color = 0x00C8C8C8;}; NodeSet LowLevel {Color = 0x00FF8000;}; NodeSet pnode {Disabled = 1; Color = 0x00C8C8C8;}; NodeSet pnodes {Disabled = 1; Color = 0x00C8C8C8;}; NodeSet Proficiencies {Disabled = 1; Color = 0x00C8C8C8;}; PrinterSetting A { margins = (1270, 1270, 1270, 1270); }; }; user U1 { priorWeight = "10"; Hub = ""; Pathname = "miniPP-CM.dne"; }; node Physics { kind = NATURE; discrete = TRUE; chance = CHANCE; states = (High, Medium, Low); statetitles = ("Highest 1/3", "Middle 1/3", "Lowest 1/3"); StateComments = ("Highest third of target population", "Middle Third of target Population", "Lowest third of target population"); levels = (0.967421566101701, 0, -0.967421566101701); parents = (); probs = // Highest 1/3 Middle 1/3 Lowest 1/3 (0.3333333, 0.3333333, 0.3333333); numcases = 10; EqnDirty = TRUE; title = "Physics Understanding"; comment = "General understanding of Newtonian mechanics."; whenchanged = 1497293635; user U1 { Q = "TRUE"; rules = "\"Compensatory\""; link = "\"normalLink\""; linkScale = "1"; lnAlphas = "1"; betas = "0"; }; visual V1 { center = (186, 198); dispform = LABELBOX; height = 4; }; }; node IterativeD { kind = NATURE; discrete = TRUE; chance = CHANCE; states = (High, Medium, Low); StateComments = ("Complete Mastery", "Partial Mastery", "No Mastery"); levels = (0.967421566101701, 0, -0.967421566101701); parents = (Physics); probs = // High Medium Low // Physics (0.922039, 0.07754987, 4.111278e-4, // Highest 1/3 0.3029545, 0.6178272, 0.07921831, // Middle 1/3 0.007127648, 0.2928399, 0.7000325); // Lowest 1/3 ; numcases = 10; EqnDirty = TRUE; title = "Use iterative design to solve a problem"; comment = "Mass and GPE are directly related\nHeight and GPE are directly related"; whenchanged = 1523316533; user U1 { Q = "TRUE"; rules = "\"Compensatory\""; link = "\"normalLink\""; linkScale = "0.447213595499958"; lnAlphas = "structure(-0.111571775657105, .Names = \"Physics\")"; betas = "-0.2"; }; visual V1 { center = (468, 54); dispform = LABELBOX; height = 5; }; }; node EnergyTransfer { kind = NATURE; discrete = TRUE; chance = CHANCE; states = (High, Medium, Low); StateComments = ("Can use to solve difficult problems", "Can use to solve simple but not difficult problems", "Can not solve simple problems."); levels = (0.967421566101701, 0, -0.967421566101701); parents = (Physics); probs = // High Medium Low // Physics (0.834402, 0.1637201, 0.001877881, // Highest 1/3 0.1677398, 0.6645205, 0.1677398, // Middle 1/3 0.001877881, 0.1637201, 0.834402); // Lowest 1/3 ; numcases = 10; EqnDirty = TRUE; title = "Energy can Transfer"; comment = "Energy can transfer from one object to another."; whenchanged = 1523316533; user U1 { Q = "TRUE"; rules = "\"Compensatory\""; link = "\"normalLink\""; linkScale = "0.447213595499958"; lnAlphas = "structure(-0.111571775657105, .Names = \"Physics\")"; betas = "0"; }; visual V1 { center = (450, 282); dispform = LABELBOX; height = 3; }; }; node NTL { kind = NATURE; discrete = TRUE; chance = CHANCE; states = (High, Medium, Low); levels = (0.967421566101701, 0, -0.967421566101701); parents = (Physics, EnergyTransfer); probs = // High Medium Low // Physics EnergyTransfer (0.8636695, 0.1350801, 0.001250477, // Highest 1/3 High 0.4274682, 0.531904, 0.04062774, // Highest 1/3 Medium 0.07178815, 0.6067694, 0.3214425, // Highest 1/3 Low 0.3616029, 0.5804327, 0.05796443, // Middle 1/3 High 0.05113405, 0.5638431, 0.3850228, // Middle 1/3 Medium 0.001785668, 0.1599221, 0.8382922, // Middle 1/3 Low 0.03551311, 0.512626, 0.4518609, // Lowest 1/3 High 0.001017459, 0.1222479, 0.8767347, // Lowest 1/3 Medium 6.360015e-6, 0.007365868, 0.9926278); // Lowest 1/3 Low ; numcases = 10; EqnDirty = TRUE; title = "Newton's Third Law"; comment = "Force pairs act in opposite directions\nForce pairs have equal magnitudes"; whenchanged = 1498754364; user U1 { Q = "TRUE"; rules = "\"Compensatory\""; link = "\"normalLink\""; linkScale = "0.447213595499958"; lnAlphas = "structure(c(-0.0526802578289132, -0.178337471969366), .Names = c(\"Physics\", \ \"EngergyTransfer\"))"; betas = "0.3"; }; visual V1 { center = (462, 132); dispform = LABELBOX; height = 1; }; }; node POfMom { kind = NATURE; discrete = TRUE; chance = CHANCE; states = (High, Medium, Low); levels = (0.967421566101701, 0, -0.967421566101701); parents = (Physics, EnergyTransfer, NTL); probs = // High Medium Low // Physics EnergyTransfer NTL (0.9912012, 0.008790335, 8.53042e-6, // Highest 1/3 High High 0.8828059, 0.1162757, 9.184728e-4, // Highest 1/3 High Medium 0.5017099, 0.4715212, 0.02676892, // Highest 1/3 High Low 0.8828059, 0.1162757, 9.184728e-4, // Highest 1/3 Medium High 0.5017099, 0.4715212, 0.02676892, // Highest 1/3 Medium Medium 0.1188891, 0.6531904, 0.2279206, // Highest 1/3 Medium Low 0.5017099, 0.4715212, 0.02676892, // Highest 1/3 Low High 0.1188891, 0.6531904, 0.2279206, // Highest 1/3 Low Medium 0.009005226, 0.3212777, 0.6697171, // Highest 1/3 Low Low 0.9202201, 0.07935004, 4.298454e-4, // Middle 1/3 High High 0.5877298, 0.3964125, 0.01585767, // Middle 1/3 High Medium 0.1677398, 0.6645205, 0.1677398, // Middle 1/3 High Low 0.5877298, 0.3964125, 0.01585767, // Middle 1/3 Medium High 0.1677398, 0.6645205, 0.1677398, // Middle 1/3 Medium Medium 0.01585767, 0.3964125, 0.5877298, // Middle 1/3 Medium Low 0.1677398, 0.6645205, 0.1677398, // Middle 1/3 Low High 0.01585767, 0.3964125, 0.5877298, // Middle 1/3 Low Medium 4.298454e-4, 0.07935004, 0.9202201, // Middle 1/3 Low Low 0.6697171, 0.3212777, 0.009005226, // Lowest 1/3 High High 0.2279206, 0.6531904, 0.1188891, // Lowest 1/3 High Medium 0.02676892, 0.4715212, 0.5017099, // Lowest 1/3 High Low 0.2279206, 0.6531904, 0.1188891, // Lowest 1/3 Medium High 0.02676892, 0.4715212, 0.5017099, // Lowest 1/3 Medium Medium 9.184728e-4, 0.1162757, 0.8828059, // Lowest 1/3 Medium Low 0.02676892, 0.4715212, 0.5017099, // Lowest 1/3 Low High 9.184728e-4, 0.1162757, 0.8828059, // Lowest 1/3 Low Medium 8.53042e-6, 0.008790335, 0.9912012); // Lowest 1/3 Low Low ; numcases = 10; EqnDirty = TRUE; title = "Properties of momentum"; comment = "Momentum is directly related to mass\n\ Momentum is directly related to velocity\n\ Momentum is parallel to velocity"; whenchanged = 1496355066; user U1 { Q = "TRUE"; rules = "\"Compensatory\""; link = "\"normalLink\""; linkScale = "0.447213595499958"; lnAlphas = "structure(c(-0.255412811882995, -0.0526802578289132, -0.0526802578289132 ), .Names = \ c(\"Physics\", \"EngergyTransfer\", \"NTL\"))"; betas = "0"; }; visual V1 { center = (582, 186); dispform = LABELBOX; height = 2; }; }; NodeSet HighLevel {Nodes = ();}; NodeSet Proficiency {Nodes = (Physics, IterativeD, EnergyTransfer, NTL, POfMom);}; NodeSet LowLevel {Nodes = (IterativeD, EnergyTransfer, NTL, POfMom);}; NodeSet pnode {Nodes = (Physics);}; NodeSet pnodes {Nodes = (IterativeD, EnergyTransfer, NTL, POfMom);}; NodeSet Proficiencies {Nodes = (IterativeD, EnergyTransfer, NTL, POfMom);}; };