// ~->[DNET-1]->~ // File created by ShuteV_6 at FloridaStateU using Netica 5.24 on Oct 12, 2017 at 15:36:40 UTC. bnet PP_OrangeNodes_6 { autoupdate = TRUE; whenchanged = 1507822597; user U1 { priorWeight = "10"; }; node Physics { kind = NATURE; discrete = TRUE; chance = CHANCE; states = (High, Medium, Low); levels = (0.967421566101701, 0, -0.967421566101701); parents = (); probs = // High Medium Low (0.3333333, 0.3333333, 0.3333333); numcases = 10; title = "Physics Understanding"; whenchanged = 1496353488; user U1 { Q = "TRUE"; rules = "\"Compensatory\""; link = "\"normalLink\""; linkScale = "1"; lnAlphas = "1"; betas = "0"; }; }; node ScienceAndEngineeringPractices { kind = NATURE; discrete = TRUE; chance = CHANCE; states = (High, Medium, Low); levels = (0.967421566101701, 0, -0.967421566101701); parents = (Physics); probs = // High Medium Low // Physics (0.6928008, 0.2761704, 0.03102878, // High 0.2479232, 0.5041536, 0.2479232, // Medium 0.03102878, 0.2761704, 0.6928008); // Low ; numcases = 10; EqnDirty = TRUE; title = "Science And Engineering Practices"; comment = "Use iterative design to solve a problem"; whenchanged = 1496353488; user U1 { Q = "TRUE"; rules = "\"Compensatory\""; link = "\"normalLink\""; linkScale = "0.632455532033676"; lnAlphas = "structure(-0.255412811882995, .Names = \"Physics\")"; betas = "0"; }; }; node ForceAndMotion { kind = NATURE; discrete = TRUE; chance = CHANCE; states = (High, Medium, Low); levels = (0.967421566101701, 0, -0.967421566101701); parents = (Physics); probs = // High Medium Low // Physics (0.9816795, 0.01829091, 2.959554e-5, // High 0.5615493, 0.4197415, 0.0187092, // Medium 0.03754251, 0.5206256, 0.4418319); // Low ; numcases = 10; EqnDirty = TRUE; title = "Force and Motion"; comment = "Newton's laws of motion"; whenchanged = 1496353488; user U1 { Q = "TRUE"; rules = "\"Compensatory\""; link = "\"normalLink\""; linkScale = "0.447213595499958"; lnAlphas = "structure(-0.111571775657105, .Names = \"Physics\")"; betas = "-0.5"; }; }; node LinearMomentum { kind = NATURE; discrete = TRUE; chance = CHANCE; states = (High, Medium, Low); levels = (0.967421566101701, 0, -0.967421566101701); parents = (Physics, ForceAndMotion); probs = // High Medium Low // Physics ForceAndMotion (0.9860451, 0.0139364, 1.855112e-5, // High High 0.7482276, 0.2470455, 0.004726881, // High Medium 0.1947, 0.6619899, 0.14331, // High Low 0.8446385, 0.1537204, 0.001641184, // Medium High 0.3029545, 0.6178272, 0.07921831, // Medium Medium 0.02040035, 0.4321269, 0.5474727, // Medium Low 0.4320574, 0.5283243, 0.03961834, // Low High 0.04449342, 0.5447132, 0.4107934, // Low Medium 6.18098e-4, 0.09547768, 0.9039042); // Low Low ; numcases = 10; EqnDirty = TRUE; title = "Linear Momentum"; comment = "Properties of momentum\nConservation of momentum"; whenchanged = 1496353488; user U1 { Q = "TRUE"; rules = "\"Compensatory\""; link = "\"normalLink\""; linkScale = "0.447213595499958"; lnAlphas = "structure(c(-0.255412811882995, 0), .Names = c(\"Physics\", \"ForceAndMotion\" ))"; betas = "-0.2"; }; }; node Energy { kind = NATURE; discrete = TRUE; chance = CHANCE; states = (High, Medium, Low); levels = (0.967421566101701, 0, -0.967421566101701); parents = (Physics, ForceAndMotion); probs = // High Medium Low // Physics ForceAndMotion (0.9614508, 0.03843888, 1.103568e-4, // High High 0.6242427, 0.3633061, 0.01245118, // High Medium 0.1282946, 0.6574613, 0.214244, // High Low 0.687224, 0.3048926, 0.007883433, // Medium High 0.1677398, 0.6645205, 0.1677398, // Medium Medium 0.007883433, 0.3048926, 0.687224, // Medium Low 0.214244, 0.6574613, 0.1282946, // Low High 0.01245118, 0.3633061, 0.6242427, // Low Medium 1.103568e-4, 0.03843888, 0.9614508); // Low Low ; numcases = 10; EqnDirty = TRUE; title = "Energy"; comment = "Gravitational Potential Energy \nKinetic Energy\nElastic potential energy \nEnergy Conservation \ "; whenchanged = 1496353488; user U1 { Q = "TRUE"; rules = "\"Compensatory\""; link = "\"normalLink\""; linkScale = "0.447213595499958"; lnAlphas = "structure(c(-0.178337471969366, -0.0526802578289132), .Names = c(\"Physics\", \ \"ForceAndMotion\"))"; betas = "0"; }; }; node Torque { kind = NATURE; discrete = TRUE; chance = CHANCE; states = (High, Medium, Low); levels = (0.967421566101701, 0, -0.967421566101701); parents = (Physics, ForceAndMotion); probs = // High Medium Low // Physics ForceAndMotion (0.7438021, 0.2512776, 0.004920268, // High High 0.237914, 0.6495674, 0.1125186, // High Medium 0.0187092, 0.4197415, 0.5615493, // High Low 0.237914, 0.6495674, 0.1125186, // Medium High 0.0187092, 0.4197415, 0.5615493, // Medium Medium 2.810103e-4, 0.06359344, 0.9361255, // Medium Low 0.0187092, 0.4197415, 0.5615493, // Low High 2.810103e-4, 0.06359344, 0.9361255, // Low Medium 7.270193e-7, 0.001918265, 0.998081); // Low Low ; numcases = 10; EqnDirty = TRUE; title = "Torque"; comment = "Properties of torque\nStatic equilibrium"; whenchanged = 1496353488; user U1 { Q = "TRUE"; rules = "\"Compensatory\""; link = "\"normalLink\""; linkScale = "0.447213595499958"; lnAlphas = "structure(c(-0.111571775657105, -0.111571775657105), .Names = c(\"Physics\", \ \"ForceAndMotion\"))"; betas = "0.5"; }; }; node IterativeD { kind = NATURE; discrete = TRUE; chance = CHANCE; states = (High, Medium, Low); levels = (0.967421566101701, 0, -0.967421566101701); parents = (ScienceAndEngineeringPractices); probs = // High Medium Low // ScienceAndEngineeringPractices (0.922039, 0.07754987, 4.111278e-4, // High 0.3029545, 0.6178272, 0.07921831, // Medium 0.007127648, 0.2928399, 0.7000325); // Low ; numcases = 10; title = "Use iterative design to solve a problem"; comment = "Mass and GPE are directly related\nHeight and GPE are directly related"; whenchanged = 1496353244; user U1 { Q = "TRUE"; rules = "\"Compensatory\""; link = "\"normalLink\""; linkScale = "0.447213595499958"; lnAlphas = "structure(-0.111571775657105, .Names = \"ScienceAndEngineeringPractices\")"; betas = "-0.2"; }; }; node NFL { kind = NATURE; discrete = TRUE; chance = CHANCE; states = (High, Medium, Low); levels = (0.967421566101701, 0, -0.967421566101701); parents = (ForceAndMotion); probs = // High Medium Low // ForceAndMotion (0.9497597, 0.050061, 1.793107e-4, // High 0.3850228, 0.5638431, 0.05113405, // Medium 0.01296835, 0.3687819, 0.6182498); // Low ; numcases = 10; title = "Newton's First Law"; comment = "\FF\FES\00t\00a\00t\00i\00c\00 \00e\00q\00u\00i\00l\00i\00b\00r\00i\00u\00m\00 \00(\00i\00.\00e\ \00.\00,\00 \00a\00=\000\00 \00a\00n\00d\00 \00v\00=\000\00)\00\n\00D\00y\00n\00a\00m\00i\00c\00 \ \00e\00q\00u\00i\00l\00i\00b\00r\00i\00u\00m\00 \00(\00i\00.\00e\00.\00,\00 \00a\00=\000\00 \00a\ \00n\00d\00 \00v\00\B9\000\00)\00"; whenchanged = 1496353488; user U1 { Q = "TRUE"; rules = "\"Compensatory\""; link = "\"normalLink\""; linkScale = "0.447213595499958"; lnAlphas = "structure(-0.111571775657105, .Names = \"ForceAndMotion\")"; betas = "-0.3"; }; }; node NSL { kind = NATURE; discrete = TRUE; chance = CHANCE; states = (High, Medium, Low); levels = (0.967421566101701, 0, -0.967421566101701); parents = (ForceAndMotion); probs = // High Medium Low // ForceAndMotion (0.834402, 0.1637201, 0.001877881, // High 0.1677398, 0.6645205, 0.1677398, // Medium 0.001877881, 0.1637201, 0.834402); // Low ; numcases = 10; title = "Newton's Second Law"; comment = "Mass and acceleration are inversely related\n\nNet force and acceleration are directly related"; whenchanged = 1496353488; user U1 { Q = "TRUE"; rules = "\"Compensatory\""; link = "\"normalLink\""; linkScale = "0.447213595499958"; lnAlphas = "structure(-0.111571775657105, .Names = \"ForceAndMotion\")"; betas = "0"; }; }; node NTL { kind = NATURE; discrete = TRUE; chance = CHANCE; states = (High, Medium, Low); levels = (0.967421566101701, 0, -0.967421566101701); parents = (ForceAndMotion); probs = // High Medium Low // ForceAndMotion (0.6182498, 0.3687819, 0.01296835, // High 0.05113405, 0.5638431, 0.3850228, // Medium 1.793107e-4, 0.050061, 0.9497597); // Low ; numcases = 10; title = "Newton's Third Law"; comment = "Force pairs act in opposite directions\nForce pairs have equal magnitudes"; whenchanged = 1507822597; user U1 { Q = "TRUE"; rules = "\"Compensatory\""; link = "\"normalLink\""; linkScale = "0.447213595499958"; lnAlphas = "structure(-0.111571775657105, .Names = \"ForceAndMotion\")"; betas = "0.3"; }; }; node POfMom { kind = NATURE; discrete = TRUE; chance = CHANCE; states = (High, Medium, Low); levels = (0.967421566101701, 0, -0.967421566101701); parents = (LinearMomentum); probs = // High Medium Low // LinearMomentum (0.834402, 0.1637201, 0.001877881, // High 0.1677398, 0.6645205, 0.1677398, // Medium 0.001877881, 0.1637201, 0.834402); // Low ; numcases = 10; 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 = 1496353488; user U1 { Q = "TRUE"; rules = "\"Compensatory\""; link = "\"normalLink\""; linkScale = "0.447213595499958"; lnAlphas = "structure(-0.111571775657105, .Names = \"LinearMomentum\")"; betas = "0"; }; }; node ConOfMom { kind = NATURE; discrete = TRUE; chance = CHANCE; states = (High, Medium, Low); levels = (0.967421566101701, 0, -0.967421566101701); parents = (LinearMomentum, POfMom); probs = // High Medium Low // LinearMomentum POfMom (0.8648399, 0.1339316, 0.001228463, // High High 0.3951908, 0.5563979, 0.0484114, // High Medium 0.05113405, 0.5638431, 0.3850228, // High Low 0.3951908, 0.5563979, 0.0484114, // Medium High 0.05113405, 0.5638431, 0.3850228, // Medium Medium 0.001340635, 0.139662, 0.8589973, // Medium Low 0.05113405, 0.5638431, 0.3850228, // Low High 0.001340635, 0.139662, 0.8589973, // Low Medium 6.205579e-6, 0.007257187, 0.9927366); // Low Low ; numcases = 10; title = "Conservation of momentum"; comment = "The total amount of momentum of a system \ndoes not change during a collision"; whenchanged = 1496353488; user U1 { Q = "TRUE"; rules = "\"Compensatory\""; link = "\"normalLink\""; linkScale = "0.447213595499958"; lnAlphas = "structure(c(-0.111571775657105, -0.111571775657105), .Names = c(\"LinearMomentum\", \"POfMom\"\ ))"; betas = "0.3"; }; }; node EnergyTransfer { kind = NATURE; discrete = TRUE; chance = CHANCE; states = (High, Medium, Low); levels = (0.967421566101701, 0, -0.967421566101701); parents = (Energy); probs = // High Medium Low // Energy (0.834402, 0.1637201, 0.001877881, // High 0.1677398, 0.6645205, 0.1677398, // Medium 0.001877881, 0.1637201, 0.834402); // Low ; numcases = 10; title = "Energy can Transfer"; whenchanged = 1496353488; user U1 { Q = "TRUE"; rules = "\"Compensatory\""; link = "\"normalLink\""; linkScale = "0.447213595499958"; lnAlphas = "structure(-0.111571775657105, .Names = \"Energy\")"; betas = "0"; }; }; node EnergyDissipate { kind = NATURE; discrete = TRUE; chance = CHANCE; states = (High, Medium, Low); levels = (0.967421566101701, 0, -0.967421566101701); parents = (Energy); probs = // High Medium Low // Energy (0.7000325, 0.2928399, 0.007127648, // High 0.07921831, 0.6178272, 0.3029545, // Medium 4.111278e-4, 0.07754987, 0.922039); // Low ; numcases = 10; title = "Energy can Dissipate"; whenchanged = 1496353488; user U1 { Q = "TRUE"; rules = "\"Compensatory\""; link = "\"normalLink\""; linkScale = "0.447213595499958"; lnAlphas = "structure(-0.111571775657105, .Names = \"Energy\")"; betas = "0.2"; }; }; node PropertiesofTorque { kind = NATURE; discrete = TRUE; chance = CHANCE; states = (High, Medium, Low); levels = (0.967421566101701, 0, -0.967421566101701); parents = (Torque); probs = // High Medium Low // Torque (0.9689887, 0.03093666, 7.459741e-5, // High 0.4726109, 0.4957735, 0.03161557, // Medium 0.02255906, 0.4466411, 0.5308); // Low ; numcases = 10; title = "Properties of Torque"; whenchanged = 1496353488; user U1 { Q = "TRUE"; rules = "\"Compensatory\""; link = "\"normalLink\""; linkScale = "0.447213595499958"; lnAlphas = "structure(-0.111571775657105, .Names = \"Torque\")"; betas = "-0.4"; }; }; node StaticEquilibrium { kind = NATURE; discrete = TRUE; chance = CHANCE; states = (High, Medium, Low); levels = (0.967421566101701, 0, -0.967421566101701); parents = (Torque); probs = // High Medium Low // Torque (0.8840179, 0.1150827, 8.994e-4, // High 0.229793, 0.6525424, 0.1176646, // Medium 0.00374347, 0.2234563, 0.7728); // Low ; numcases = 10; title = "Static Equilibrium"; whenchanged = 1496353314; user U1 { Q = "TRUE"; rules = "\"Compensatory\""; link = "\"normalLink\""; linkScale = "0.447213595499958"; lnAlphas = "structure(-0.111571775657105, .Names = \"Torque\")"; betas = "-0.1"; }; }; NodeSet HighLevel {Nodes = (Torque, Energy, LinearMomentum, ForceAndMotion, ScienceAndEngineeringPractices);}; NodeSet Proficiency {Nodes = (Torque, Energy, LinearMomentum, ForceAndMotion, ScienceAndEngineeringPractices, Physics, StaticEquilibrium, PropertiesofTorque, EnergyDissipate, EnergyTransfer, ConOfMom, POfMom, NTL, NSL, NFL, IterativeD);}; NodeSet LowLevel {Nodes = (StaticEquilibrium, PropertiesofTorque, EnergyDissipate, EnergyTransfer, ConOfMom, POfMom, NTL, NSL, NFL, IterativeD);}; NodeSet pnode {Nodes = (Physics);}; NodeSet pnodes {Nodes = (Torque, Energy, LinearMomentum, ForceAndMotion, ScienceAndEngineeringPractices, Physics, StaticEquilibrium, PropertiesofTorque, EnergyDissipate, EnergyTransfer, ConOfMom, POfMom, NTL, NSL, NFL, IterativeD);}; NodeSet Proficiencies {Nodes = (Torque, Energy, LinearMomentum, ForceAndMotion, ScienceAndEngineeringPractices, StaticEquilibrium, PropertiesofTorque, EnergyDissipate, EnergyTransfer, ConOfMom, POfMom, NTL, NSL, NFL, IterativeD);}; };