models-of-the-hydrogen-atom-strings_en.json

{
  "models-of-the-hydrogen-atom.title": {
    "value": "Models of the Hydrogen Atom"
  },
  "screen.spectra": {
    "value": "Spectra"
  },
  "screen.energyLevels": {
    "value": "Energy Levels"
  },
  "3DHeight": {
    "value": "3D Height"
  },
  "billiardBall": {
    "value": "Billiard Ball"
  },
  "bohr": {
    "value": "Bohr"
  },
  "brightness": {
    "value": "Brightness"
  },
  "classical": {
    "value": "Classical"
  },
  "classicalSolarSystem": {
    "value": "Classical Solar System"
  },
  "deBroglie": {
    "value": "de Broglie"
  },
  "electron": {
    "value": "electron"
  },
  "electronEnergyLevel": {
    "value": "Electron Energy Level"
  },
  "experiment": {
    "value": "Experiment"
  },
  "model": {
    "value": "Model"
  },
  "hydrogenSymbol": {
    "value": "H"
  },
  "nEquals": {
    "value": "{{nSymbol}} = {{nValue}}"
  },
  "nlmEquals": {
    "value": "({{nSymbol}},{{lSymbol}},{{mSymbol}}) = ({{nValue}},{{lValue}},{{mValue}}) = {{nValue}}{{subshell}}"
  },
  "photon": {
    "value": "photon"
  },
  "plumPudding": {
    "value": "Plum Pudding"
  },
  "proton": {
    "value": "proton"
  },
  "quantum": {
    "value": "Quantum"
  },
  "radialDistance": {
    "value": "Radial Distance"
  },
  "schrodinger": {
    "value": "Schr\u00f6dinger"
  },
  "spectrometer": {
    "value": "Spectrometer"
  },
  "n": {
    "value": "n"
  },
  "l": {
    "value": "l"
  },
  "m": {
    "value": "m"
  },
  "x": {
    "value": "x"
  },
  "z": {
    "value": "z"
  },
  "exciteAtom": {
    "value": "Excite Atom"
  },
  "white": {
    "value": "White"
  },
  "monochromatic": {
    "value": "Monochromatic"
  },
  "uv": {
    "value": "UV"
  },
  "ir": {
    "value": "IR"
  },
  "nTransition": {
    "value": "n transition"
  },
  "wavelengthNanometers": {
    "value": "wavelength (nm)"
  },
  "questionMark": {
    "value": "?"
  },
  "absorptionAndEmission": {
    "value": "Absorption and Emission"
  },
  "s": {
    "value": "s"
  },
  "p": {
    "value": "p"
  },
  "d": {
    "value": "d"
  },
  "f": {
    "value": "f"
  },
  "g": {
    "value": "g"
  },
  "h": {
    "value": "h"
  },
  "quantumNumbers": {
    "value": "Quantum Numbers"
  },
  "nlmInfo": {
    "value": "Schrödinger used 3 quantum numbers ({{n}},{{l}},{{m}}) to describe the most probable location of an electron, also known as an <b>orbital</b>."
  },
  "nInfo": {
    "value": "{{n}}, the <b>Principal Quantum Number</b>, describes the electron's energy and its probable distance from the nucleus."
  },
  "lInfo": {
    "value": "{{l}}, the <b>Angular Quantum Number</b>, describes the shape of the orbital. Orbital shapes are spherical ({{l}} = 0 or {{s}}), peanut-shaped ({{l}} = 1 or {{p}}), and become more complex as {{l}} increases."
  },
  "mInfo": {
    "value": "{{m}}, the <b>Magnetic Quantum Number</b>, describes the orientation of the orbital in space."
  },
  "snapshotNumberName": {
    "value": "Snapshot {{number}}: {{name}}"
  },
  "a11y": {
    "absorptionAndEmissionCheckbox": {
      "helpText": {
        "value": "Show Absorption and Emission dialog for table of electron state transitions and their associated wavelengths."
      }
    },
    "absorptionAndEmissionDialog": {
      "accessibleName": {
        "value": "Absorption and Emission"
      },
      "helpText": {
        "value": "Use the buttons to set the light source to a specific wavelength."
      }
    },
    "deBroglieRepresentationComboBox": {
      "accessibleName": {
        "value": "de Broglie Representation"
      },
      "helpText": {
        "value": "Choose the wave representation for de Broglie model."
      }
    },
    "deleteSnapshotButton": {
      "accessibleName": {
        "value": "Delete Snapshot {{number}}: {{name}}"
      }
    },
    "electronEnergyLevelAccordionBox": {
      "helpText": {
        "value": "Observe changes in the electron’s state as shown in an energy level diagram."
      }
    },
    "energyLevelsScreen": {
      "screenButtonsHelpText": {
        "value": "Explore electron transitions and relate observations to quantum models of the hydrogen atom."
      },
      "screenSummary": {
        "playArea": {
          "value": "The Play Area contains a light source aimed at a sample of hydrogen atoms. The observation window displays a zoomed-in view of a single atom, which varies with the mode of exploration. In Experiment mode, the atom’s structure is a mystery and is obscured. In Model mode, there are various quantum models of the hydrogen atom to explore. Determine the structure of the hydrogen atom by shining white or monochromatic light on the sample. Observe changes in the electron’s state in the Electron Energy Level diagram."
        },
        "controlArea": {
          "value": "The Control Area has a Spectrometer that displays a histogram of the photons emitted by the hydrogen atom. Take snapshots of the spectrometer to compare data. Use Time Controls to adjust how fast the action happens in the observation window, including buttons to pause and step forward. Reset the sim to start over."
        },
        "interactionHint": {
          "value": "Turn on the light source to start exploring."
        }
      }
    },
    "eraseSnapshotsButton": {
      "accessibleName": {
        "value": "Erase Spectrometer Data"
      }
    },
    "experimentOrModelHelpTextSwitch": {
      "helpText": {
        "value": "Collect experimental data or explore atomic models."
      }
    },
    "quantumNumbersInfoButton": {
      "helpText": {
        "value": "Show definitions of quantum numbers."
      }
    },
    "lightSource": {
      "accessibleName": {
        "value": "Light Source"
      }
    },
    "lightSourceModeRadioButtonGroup": {
      "accessibleName": {
        "value": "Light Source Mode"
      },
      "helpText": {
        "value": "Choose type of light emitted by light source."
      }
    },
    "modelRadioButtonGroup": {
      "accessibleName": {
        "value": "Atomic Model"
      },
      "helpText": {
        "value": "Choose atomic model to explore."
      }
    },
    "mySnapshotsDialog": {
      "accessibleName": {
        "value": "My Snapshots"
      }
    },
    "spectraScreen": {
      "screenButtonsHelpText": {
        "value": "Compare experimental spectroscopy data to historical models of the hydrogen atom."
      },
      "screenSummary": {
        "playArea": {
          "value": "The Play Area contains a light source aimed at a sample of hydrogen atoms. The observation window displays a zoomed-in view of a single atom which varies with the mode of exploration. In Experiment mode, the atom’s structure is a mystery and is obscured. In Model mode, there are various models of the hydrogen atom to explore, ranging from classical to quantum. Determine the structure of the hydrogen atom by shining white or monochromatic light on the sample."
        },
        "controlArea": {
          "value": "The Control Area has a Spectrometer that displays a histogram of the photons emitted by the hydrogen atom. Take snapshots of the spectrometer to compare data. Use Time Controls to adjust how fast the action happens in the observation window, including buttons to pause and step forward. Reset the sim to start over."
        },
        "interactionHint": {
          "value": "Turn on the light source to start exploring."
        }
      }
    },
    "snapshotButton": {
      "accessibleName": {
        "value": "Take Snapshot"
      },
      "helpText": {
        "value": "Take up to {{max}} snapshots of spectrometer data."
      }
    },
    "viewSnapshotsButton": {
      "accessibleName": {
        "value": "View Snapshots"
      }
    },
    "wavelengthButton": {
      "accessibleName": {
        "value": "{{wavelength}} nanometers"
      }
    },
    "wavelengthNumberControl": {
      "accessibleName": {
        "value": "Wavelength"
      },
      "helpText": {
        "value": "Adjust wavelength for monochromatic light source."
      }
    }
  }
}