Control thedirection ofcurrentflowProtectagainstovercurrentViscosityConvertelectricalenergy intomechanicalmotionAllow wheelsto rotate atdifferentspeedsR(StatisticalComputing)Transferheatbetweentwo fluidsElectricalEngineeringPreventexcessivepressure inthe systemShieldedMetal ArcWelding(SMAW)CentralProcessingUnitRemoveheat froma spaceShapememoryalloyAerospaceEngineeringBuildingInformationModelingElectricalSystemsEngineeringIncreasethe airintake forcombustionDegreesofFreedomControl theopening andclosing ofenginevalves8electronsReducefriction andsupportrotating partsTelecommunicationsEngineeringSublimationAmericanswithDisabilitiesActCandela(cd)SteelBinarydigitCharlesBabbageCentrifugalpumpLaw ofConservationof EnergySolventextractionArchBridgeControlthe speedof a pumpGlobalPositioningSystemCopperTransmitrotationalpower fromthe engine tothe wheelsApproximately299,792kilometers persecondEnvironmentalEngineeringStructuralEngineeringFirst Law ofThermodynamicsStabilizethe currentin lightingcircuitsDragforceAbsorb anddampenshocks andvibrationsNewton(N)Ampere(A)EntropyDragThird Law ofThermodynamicsOhm(Ω)Relationshipbetweenvoltage,current, andresistanceChangevoltagelevels inelectricalcircuitsConductionToughnessBrassReducenoise in theexhaustsystemRandomAccessMemoryCivilEngineeringStiffnessHertz(Hz)DistillationKelvin(K)MiningEngineeringSuspensionBridgeControlthe airflowinto theengineSublimationStore andreleaseelectricalenergyConvertharmfulgases intoless harmfulsubstancesHeating,Ventilation,and AirConditioningCarnotefficiencyElasticityLeadership inEnergy andEnvironmentalDesignTensileforceLong-TermEvolutionWatt(W)Power PlantEngineeringDigitalSubscriberLineControl theair-fuelmixture in acarburetorElectron sourcein anelectrochemicalcellRegulatetheenginespeedArtificialIntelligence45degreesC++ (CPlusPlus)Store andreleaseenergy tosmooth outfluctuationsGraphiteEntropyIncreasePrincipleHighwayEngineeringSiliconPascal(Pa)2electronsStore andreleaseelectricalenergy incircuitsDetect andmeasurepressurechangesTransmitand modifymechanicalpowerPythonSecond Law ofThermodynamicsDevice thatconvertsdirect currentto alternatingcurrentJavaScriptEvaporationStructuralEngineering18electronsStep-by-stepprocedure orformula forsolving aproblemControl thedirection ofcurrentflowProtectagainstovercurrentViscosityConvertelectricalenergy intomechanicalmotionAllow wheelsto rotate atdifferentspeedsR(StatisticalComputing)Transferheatbetweentwo fluidsElectricalEngineeringPreventexcessivepressure inthe systemShieldedMetal ArcWelding(SMAW)CentralProcessingUnitRemoveheat froma spaceShapememoryalloyAerospaceEngineeringBuildingInformationModelingElectricalSystemsEngineeringIncreasethe airintake forcombustionDegreesofFreedomControl theopening andclosing ofenginevalves8electronsReducefriction andsupportrotating partsTelecommunicationsEngineeringSublimationAmericanswithDisabilitiesActCandela(cd)SteelBinarydigitCharlesBabbageCentrifugalpumpLaw ofConservationof EnergySolventextractionArchBridgeControlthe speedof a pumpGlobalPositioningSystemCopperTransmitrotationalpower fromthe engine tothe wheelsApproximately299,792kilometers persecondEnvironmentalEngineeringStructuralEngineeringFirst Law ofThermodynamicsStabilizethe currentin lightingcircuitsDragforceAbsorb anddampenshocks andvibrationsNewton(N)Ampere(A)EntropyDragThird Law ofThermodynamicsOhm(Ω)Relationshipbetweenvoltage,current, andresistanceChangevoltagelevels inelectricalcircuitsConductionToughnessBrassReducenoise in theexhaustsystemRandomAccessMemoryCivilEngineeringStiffnessHertz(Hz)DistillationKelvin(K)MiningEngineeringSuspensionBridgeControlthe airflowinto theengineSublimationStore andreleaseelectricalenergyConvertharmfulgases intoless harmfulsubstancesHeating,Ventilation,and AirConditioningCarnotefficiencyElasticityLeadership inEnergy andEnvironmentalDesignTensileforceLong-TermEvolutionWatt(W)Power PlantEngineeringDigitalSubscriberLineControl theair-fuelmixture in acarburetorElectron sourcein anelectrochemicalcellRegulatetheenginespeedArtificialIntelligence45degreesC++ (CPlusPlus)Store andreleaseenergy tosmooth outfluctuationsGraphiteEntropyIncreasePrincipleHighwayEngineeringSiliconPascal(Pa)2electronsStore andreleaseelectricalenergy incircuitsDetect andmeasurepressurechangesTransmitand modifymechanicalpowerPythonSecond Law ofThermodynamicsDevice thatconvertsdirect currentto alternatingcurrentJavaScriptEvaporationStructuralEngineering18electronsStep-by-stepprocedure orformula forsolving aproblem

SLU ASME BINGO - Game 1 - Call List

(Print) Use this randomly generated list as your call list when playing the game. There is no need to say the BINGO column name. Place some kind of mark (like an X, a checkmark, a dot, tally mark, etc) on each cell as you announce it, to keep track. You can also cut out each item, place them in a bag and pull words from the bag.


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  1. Control the direction of current flow
  2. Protect against overcurrent
  3. Viscosity
  4. Convert electrical energy into mechanical motion
  5. Allow wheels to rotate at different speeds
  6. R (Statistical Computing)
  7. Transfer heat between two fluids
  8. Electrical Engineering
  9. Prevent excessive pressure in the system
  10. Shielded Metal Arc Welding (SMAW)
  11. Central Processing Unit
  12. Remove heat from a space
  13. Shape memory alloy
  14. Aerospace Engineering
  15. Building Information Modeling
  16. Electrical Systems Engineering
  17. Increase the air intake for combustion
  18. Degrees of Freedom
  19. Control the opening and closing of engine valves
  20. 8 electrons
  21. Reduce friction and support rotating parts
  22. Telecommunications Engineering
  23. Sublimation
  24. Americans with Disabilities Act
  25. Candela (cd)
  26. Steel
  27. Binary digit
  28. Charles Babbage
  29. Centrifugal pump
  30. Law of Conservation of Energy
  31. Solvent extraction
  32. Arch Bridge
  33. Control the speed of a pump
  34. Global Positioning System
  35. Copper
  36. Transmit rotational power from the engine to the wheels
  37. Approximately 299,792 kilometers per second
  38. Environmental Engineering
  39. Structural Engineering
  40. First Law of Thermodynamics
  41. Stabilize the current in lighting circuits
  42. Drag force
  43. Absorb and dampen shocks and vibrations
  44. Newton (N)
  45. Ampere (A)
  46. Entropy
  47. Drag
  48. Third Law of Thermodynamics
  49. Ohm (Ω)
  50. Relationship between voltage, current, and resistance
  51. Change voltage levels in electrical circuits
  52. Conduction
  53. Toughness
  54. Brass
  55. Reduce noise in the exhaust system
  56. Random Access Memory
  57. Civil Engineering
  58. Stiffness
  59. Hertz (Hz)
  60. Distillation
  61. Kelvin (K)
  62. Mining Engineering
  63. Suspension Bridge
  64. Control the airflow into the engine
  65. Sublimation
  66. Store and release electrical energy
  67. Convert harmful gases into less harmful substances
  68. Heating, Ventilation, and Air Conditioning
  69. Carnot efficiency
  70. Elasticity
  71. Leadership in Energy and Environmental Design
  72. Tensile force
  73. Long-Term Evolution
  74. Watt (W)
  75. Power Plant Engineering
  76. Digital Subscriber Line
  77. Control the air-fuel mixture in a carburetor
  78. Electron source in an electrochemical cell
  79. Regulate the engine speed
  80. Artificial Intelligence
  81. 45 degrees
  82. C++ (C Plus Plus)
  83. Store and release energy to smooth out fluctuations
  84. Graphite
  85. Entropy Increase Principle
  86. Highway Engineering
  87. Silicon
  88. Pascal (Pa)
  89. 2 electrons
  90. Store and release electrical energy in circuits
  91. Detect and measure pressure changes
  92. Transmit and modify mechanical power
  93. Python
  94. Second Law of Thermodynamics
  95. Device that converts direct current to alternating current
  96. JavaScript
  97. Evaporation
  98. Structural Engineering
  99. 18 electrons
  100. Step-by-step procedure or formula for solving a problem