SELEKTION: udvikling i generationer,hvis LUklbXJvd0c2Iy9JK21vZHVsZW5hbWVHNiJJLFR5cGVzZXR0aW5nR0koX3N5c2xpYkdGJzYmLUkjbWlHRiQ2JlEjYWFGJy8lJWJvbGRHUSZmYWxzZUYnLyUnaXRhbGljR1EldHJ1ZUYnLyUsbWF0aHZhcmlhbnRHUSdpdGFsaWNGJy8lJXNpemVHUSMxMkYnRi8vRjZRJ25vcm1hbEYn genotypen ikke deltager i forplantningen.Man siger, at LUklbXJvd0c2Iy9JK21vZHVsZW5hbWVHNiJJLFR5cGVzZXR0aW5nR0koX3N5c2xpYkdGJzYnLUkjbWlHRiQ2J1EiYUYnLyUlYm9sZEdRJmZhbHNlRicvJSdpdGFsaWNHUSV0cnVlRicvJStmb3JlZ3JvdW5kR1EqWzI1NSwwLDBdRicvJSxtYXRodmFyaWFudEdRJ2l0YWxpY0YnLyUlc2l6ZUdRIzEyRidGL0Y1L0Y5USdub3JtYWxGJw== er recessivt letalt allel.LUklbXJvd0c2Iy9JK21vZHVsZW5hbWVHNiJJLFR5cGVzZXR0aW5nR0koX3N5c2xpYkdGJzYjLUkjbWlHRiQ2JVEocmVzdGFydEYnLyUnaXRhbGljR1EldHJ1ZUYnLyUsbWF0aHZhcmlhbnRHUSdpdGFsaWNGJw==1. generation: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LSUrQU5OT1RBVElPTkc2Jy0lKUJPVU5EU19YRzYjJCIiISEiIi0lKUJPVU5EU19ZR0YnLSUtQk9VTkRTX1dJRFRIRzYjJCIlXT1GKi0lLkJPVU5EU19IRUlHSFRHNiMkIiRdJkYqLSUpQ0hJTERSRU5HNiI=LUklbXJvd0c2Iy9JK21vZHVsZW5hbWVHNiJJLFR5cGVzZXR0aW5nR0koX3N5c2xpYkdGJzYpLUkjbWlHRiQ2JVEiQUYnLyUnaXRhbGljR1EldHJ1ZUYnLyUsbWF0aHZhcmlhbnRHUSdpdGFsaWNGJy1JI21vR0YkNi1RKiZjb2xvbmVxO0YnL0YzUSdub3JtYWxGJy8lJmZlbmNlR1EmZmFsc2VGJy8lKnNlcGFyYXRvckdGPS8lKXN0cmV0Y2h5R0Y9LyUqc3ltbWV0cmljR0Y9LyUobGFyZ2VvcEdGPS8lLm1vdmFibGVsaW1pdHNHRj0vJSdhY2NlbnRHRj0vJSdsc3BhY2VHUSwwLjI3Nzc3NzhlbUYnLyUncnNwYWNlR0ZMLUkjbW5HRiQ2JFEkMC42RidGOS1GNjYtUSI7RidGOUY7L0Y/RjFGQEZCRkRGRkZIL0ZLUSYwLjBlbUYnRk0tRiw2JVEiYUYnRi9GMkY1LUZQNiRRJDAuNEYnRjk=LUklbXJvd0c2Iy9JK21vZHVsZW5hbWVHNiJJLFR5cGVzZXR0aW5nR0koX3N5c2xpYkdGJzY5LUkjbWlHRiQ2JVEsQUFnZW5vdHlwZTFGJy8lJ2l0YWxpY0dRJXRydWVGJy8lLG1hdGh2YXJpYW50R1EnaXRhbGljRictSSNtb0dGJDYtUSomY29sb25lcTtGJy9GM1Enbm9ybWFsRicvJSZmZW5jZUdRJmZhbHNlRicvJSpzZXBhcmF0b3JHRj0vJSlzdHJldGNoeUdGPS8lKnN5bW1ldHJpY0dGPS8lKGxhcmdlb3BHRj0vJS5tb3ZhYmxlbGltaXRzR0Y9LyUnYWNjZW50R0Y9LyUnbHNwYWNlR1EsMC4yNzc3Nzc4ZW1GJy8lJ3JzcGFjZUdGTC1GLDYlUSJBRidGL0YyLUY2Ni1RJyZzZG90O0YnRjlGO0Y+RkBGQkZERkZGSC9GS1EmMC4wZW1GJy9GTkZWRk8tRjY2LVEiO0YnRjlGOy9GP0YxRkBGQkZERkZGSEZVRk0tSSdtc3BhY2VHRiQ2Ji8lJ2hlaWdodEdRJjAuMGV4RicvJSZ3aWR0aEdGVi8lJmRlcHRoR0Zbby8lKmxpbmVicmVha0dRKG5ld2xpbmVGJy1GLDYlUSxBYWdlbm90eXBlMUYnRi9GMkY1Rk9GUi1GLDYlUSJhRidGL0YyLUY2Ni1RIitGJ0Y5RjtGPkZARkJGREZGRkgvRktRLDAuMjIyMjIyMmVtRicvRk5GXXBGZm9GUkZPRlhGZm4tRiw2JVEsYWFnZW5vdHlwZTFGJ0YvRjJGNUZmb0ZSRmZvTUZOV3RLVWI8b2I8Uj1NRExDZE5GWkpCOjtSR0tiOmI7d3VCYV1EZm5DX2I7X2RyT3VnYW13P2RNdmZUPnJZT2ZkQWhSPmxcXGBtaD5val5eYF50O0hwTE5rTWdmbm5yXUd0O19dYEZkYmdoOmBjbG5tRmd4ZFBgQ25tXFx4aHk/XT8/W01YXFxlaF1ueFxcXl5ucHFbaE9yS1FlZXBaO0BzWndmPj9hX0F4ZEZmWlZmYVBsX29jSVh2XU5kSEhyX3F4XU5mOmByQHBpVmlocXZ3aXldbFh5aFZhc29td29hWWF3dXFaRm9jSE9aQl5aXFxZXVY+bzw+Wz5OYUZeWjxmXUBOWjtwWz1Gamo+W2hha11BajpEZGNCPENmU2dJX2tyb2l2XFxzWT0/Y1RrWWhfQmJHQmlFcz1rZF49REJbd1s9Rko7d2o7REJbWFI7Qz5HU2p1dnh5R11ldU9DSVxcY3RZPWQ8b2JoT1ZjPXNGR1J2V2dcXFVnTmVWQz9HYj1pWF1HV11zVGVoc0ljUj9kWUNGPUF2SU9VZFdVQndpUkdncHFWWUF5RklyWHdHZWdHUkx1R3VsVVh5am14dFlreT1rQ0R5W3FLPXhLVVVvSEhVTHhPVFhzSl1vcFFyR1R5blVXc01Xb1xcWWJFUkVhc1F0WFxcZUx5bXFLWVBAUVRfSHlDQG1KeE1bYE5VPFd1SFY7QXRxcVBodVVxdEt3ZG9kcHlseFJLVE9WUFh0SHZ5eHVqRFFKZU90aFFTeGo8WFZPaU9JYEw8QVVQbFBDbVU/YXJXaHVQUU09RXBkYHI8XU1aRFF0VVZbUE8/PU08cXF2UXc/XVN5QExZWHl3YFdfZW06WE1HTHBMSGpkUVlFdXNoRG5qPHRPYFlUcVdUQHBeZVdsXVBRX2ZbQGZgWGFraHJWX3FESGFrd29Wb2c+TnlJbmJEaGp2dmZlR2d0b1p0WW0/cHBlT2NwSGc6WW1SQHFZP2tJSXlYbnBMaGxWZnM7Rmo8YHZnPl9aTnVTeGJyYXBeWXBfRmVKPltyRnQ+aWI6UWJyWFxcdVFzT3Z3XFxPaD9Rd0hXbnRmYkJZXnhWeFBnZ0RXXFw7cHU7SFxccGlocm51PmF4SUZ4c1hocWhscUFjVUdeVmdjanBnVF9pV1BjeF5uSU50aGFyQFFvZmlkXFxvY2VIY0I/eWNfb1ZQeGpRXmB4ZUJ4c1dYbmdgcD1eY19ObWFQaHVWY1FnZm1Jb15ZaltPb3FubkdOcGdQXz15ZVtuTlF3SDtTcFl1bXdzU3FSaEdDc1VmZ2lmY0ljX2FXbnVkeHNzXFxNWXVzd3FvQz1VdURxUz1nZ0RFd2RNVTprdVdFaE9dUkF5dD9hVGxJSHJndGZfeElpSGhpU0hTV2RJSElRVkBhY1J5V1tNZnZfU049c11VeElJcnJ1aWFFSHdnZWFFRVZHSVRRc1BLaVhTWHdZSE9lZFM9Y3JReWlNZ0pFc1xcV0NPS2VTaVNIU1VkSUhpS1Y8P3Zqa0lqZ1VnTXlESUNASWhQVXZTZWlPZ2VQU3Y/XVNId1lCd3dtbWI7UWVHZ0ZIW3RacVdlWG9laVRPcXlrQFc7cEtFbVBKWGw7PFZAWFFrQFdoYFc8VHFTVVRcXGlVRlVxXFx1ckFsdlhocWxpcDtRXUJPeG9HdWI+YG1IdFtfalhocm5lcXlUQUdSXm1yQ0V1ZldoO09SX2VzXk9kdmFUTE1IVWVoa09zVWtDX1NjbmViQlFzd1tHTENYUVNUcE1nY014TmF0Qk9pUmdkO21IPj13U11TaXV2d2FoXlNiOj1GSklWWlp5RlxcbXZsaFdyRz9gWj5sYz52YD5deGhiSz5xQ25aVmFaPW5nPEhaO0ByWG5aPEZKQFJaWEJrRGpzaD9bVnJrdGRNSW1dVWtRc19jWHJrdFh1WHNhd3hlU09rUlddZm1rRGBJdGVdRmB1YzxbeEJVUj9vVFRDc2JzZ1dzclRZZ0lBZ0lzZFJFQ0NLdmxdWF9fZHJtdV47RWlZZ0d5WUVtWVhTdmVRdXRfdFxcTVVTcXNoUXlsWWRzd0duO1RKRVlcXEFWcE1EPGFnOmlSdmNSTUlFb09mPlF3Y0lEdV1pbFlFcWNCRnFoTENzS1N2YUt1TmtSYkNWaGtDXWFXT3l3REF0aT9HdD1JbGVHUFtZT0VoaWlVTk10ZW1pZXdkP21zcXVpYnF1X2V3YT9GSVFJbEVTUltib2tFTW1XQFV4O1V1QVFXaz1HY2dmeE91d3NXS3dXOldkXV9JSGtjV1lXWENDYF1kYz92SHF4bVlpTFNHUD1FZlNGR1VnOnVkY3VlblVjXklmc3F3QU1ISW9TSXd4d215dWd5YUloY3VmeG9ndztGUVd1cV1Icmt5XWNSOmt0Ul1oZVVYQE92c1V2b2NGPW9UR2NDcFd3cWFGZHlkUmtFSGNIP1FiaE9jPU1UTm15SmF5c3lSbD9HSGFTYUVpV214VWFpdlFnQVtyYW15RmNGZkl1YHNoYVdlZ1dSQE1GWlFESFlyVlNJaml5ZW1jb3V0Tk9XZkdzVFFyZj9VXFw7ZmxRdk5jYkFfSWdZYjtZRGV3eWRdVGFPZDt1ZE1DaTttZTx5QldlZVl1Y0pVUkllZ2F1U089Y25jZkFZSGJBZEZJUlBBU1JnaGBZRWlxZ3NLZ21PZkFPQ09DWHZYckVoc2RcXHR4UFZZXFxLRG11cmVtW0BTXFxxTElNWWlhVXU9cklVdXBISltMbkZhWV5VcnBgUHhsdHU8eEZ0VkxwS2R1a2RteUBQV29Ma1JNdlNpaj5RT25MVW55VU90TFRMWWBNczpdakhZVnQ8bGVtUGVxWEd1cTtBcG9RcnhRa2JkVWNFakZwWXRhTT5dT2tRbFpAbWZBUEh5cnBUUVp5Tmdwa2tlcVh5c1NNTXdxTjxoWFRhTUh1d3RoTVdMTVJkbXRMbllpa0lxdXRwanNYd19cXG1IVFVhbHJJRVVXVHZMQFZ4UXRiRUo8XFx3cHhySHVTc0Bzbk1uXkVvaGFUUFFXcWFPSFlrSmRyXWRxUVVtdVxcbXJEWUd1Um1pdFhBcUdIUEVIbV1ITFZJeXJ4bk08a0xtVGlUWHd1VkhRdmJ5UF08UmF1c111dkZ0a1tMUmFVbD1Bb1BocVdUUHdga1t4dENAc3B4b0NkVnF1S21pd1p1eVo8dkFocUZlbTtVSz1ZajpsdHk8eUZAa21sbUV5dEBYdGFMT2tEa2BpWW5MbHZsWXA8dUlIamtVbXNBc2BYeE5VWktgXFxOdmxYXnNMVl5tSV1daF9MX1o+eF1wQHY/cFtyRmJFVnI8VGJrdlVJVWhndFBtZ3hzQ251ZV5JY1l1aG9DaUE7R1ttVlNFdGdDZ1xcQ0h3d3Vqd0d2cXR1UVlqXXJiZ3NCT1ZKV3J2U0VWSGpqQXBaSU9FSUtWPU1YXFxLakhqO01OR21qal1Zb1xcbmt5WXZtWF5kVD11T2BtbE5cXFRQcE1GcUxtVG5JWHhTSVZgbHljdXFXWUtQeWp0QVRlbVlNVW11SFNYZXRFXFxVV0RWVEBrREVPTWxLdWlnZnZaQk93P3BfbHdlS05wOz5zQ3daS3BdcHhzdklxPEdrSl5weF5oO3loY0FmdnhzTGducWhmeF95Y09eSV5rSEFjY2FxUnloSWdtdVhlaXZfS0dlY0hrTWZyVG9ib195XW9bdWg7XURUW3N3cWlEXWZGQ1dzc0hmY2RYeVVgSUJLYUNlS3RhaUdpUXREVVJSO2ZCc2V5T0ZxeWRrU3dzQWZ5PXRBZ1k6bWRFYWN3U2Q+c3NXc1hucE1PYG5RcHB4QE9TTWpQXW9HRWxMaGxlRFZxRFdzSHVcXF1zblVwZz1ta2RKdnRQXFxsVnc8TWd5TXZxa1BYamRpeGllV3d0cFFNUFVRSmpxcUBZbmNZc3B5a15ZVWZVUkhYUT9VU2lYblxcaG1BVU1TXFxwdW1WWl1SRkBrYlRvQHRSYGxZSmlXUF1vV1FPb2V3aVRwXXRQV0RyZnRQVHFKUm1UTEhUSllNYUF0YD1QdFxceF5dTGpZdl1QcndQUV1MbG49dkJweHRlcWRgcVNxWGpEU2ZxVmddbWNgVEhhUVZlUXR0dl9VbHBgUXhMd29JV09tcWdod1RseDpUbEF1VHZgUWNlU3Zlb3Z0clZhWGNsb3hAcUJJbm50VUZ5U1tUc2pgdVxcUHBheXhfUG9ZdXlDbVFnbXNveXZJWWw7eGxIVFBwXFx4Xl1KamlKS0V2eEhLWnFMc0VvTlFTUWhwZlxcd1tNcl1xUGA8amRwdEhUeVJAbVRhdDx0d3ldWFlUTEVZTFxcYFl3aHI8QHRfQEtQdVNITUxKWHRlbnlyWG5YcVpcXFlwUUhgYm9bWkdzZGhrYk5kT3d1W3dzUVZkRXBvQVl5WWZ4Wj9zVUlbZWZ1WUBhYV5idE9za1FoW0luTVB1eWZeR1B5U05mPFJVZUdaRWhoS1dLWWNIR1lTUXdOQ0RiYUVSS0VvSWg7O3l5WUVGUWRyX0ZOW1lQdXVrQUlZXVNHZWJdeVNZY3VxPUZsYWJPb2lUSXJpS1JRb2I8T1lsTWQ6PVNEX0lgdXdiZXc/Q0hcXGdWRkFlYVN4d0lGP0tDTHV1S01GZ2tGPXlEV3FTVjtJWVtUWF95PWdSbFdJbUNHRl9VZnFVVXdESjtkcj1pa0lHUj9XaWNjSWlHZ2dXQUFzXFxTVnJXaWhPc15FQkxfaUdLRjxVZVtDQ1NHeWM9VUNFeGNNaDxDZkFvRGNzeGhtRGo7Zzx3dj5hZmhpZFtrZGRVUld1ZE0/c15jVU95RklnaEJNeG1LZEJ5QkldWGhNYjo/Y11nY2lPZ2pDaUVtdFxcT1M+cVhvb3JMaVNJUWRvRWVJUXdnP1NweWdMU1JSU2Y/a2NaVXhYZXZcXFNjY09naFdZUj9ZPmlVT09pXW1kPl95RmFCbDtDXFxlaHNHQjtDREFXRUF3VW9VYmpfZkZpdUxbZ2xhcmNxQkZzcldndVk9RUZlR0JPeFdfVDtTSHBvRFRXUlc7ckNfdWBnaWxhd0ZPWXk/R1JtU0lJWG9nZUhRRE1HeTtpcz49aWVzaFFnV25bZUJ1Y0pXVmhvZllhWV91WEA/ZURvRVtPdnZjaT9bZUZpdXZfZ0JvRWw/ZW1RVFxcP0Vvc3J2c0lsU2ZqUVNfSUVvX3lHS2dUX1JFS0dlcVNhdUZrcXZgV1JqRXlmeXdjY0VMdVhqW0hSVUhfW1N0aUhEV0RPR2ZvW1RYR0loc0RnW1hHSVhvR1dtZ3Jtd3ZCR2dOUWdrT2lIX0hDd2djPUJCSUh1W2NsW1JmT2k6TXU7S0U7TXU7XVVIb3dMZ0hpY2Jjc2d1PVlSPVJAc0Q8PVJfO1JHO1lNTUJ2RXlMS0JzSVN0PUVCW0I8Y0VAS0I7b0s8RHlZaVB3QVRjPExCZHNmcW5ZbFNAQFJaPHBeVGo6PW49Q2JBUEpsTmt5dXBUc0g9bFs9TVBISzo8Sjo8al5QTmFMTlFFTmpEQjI6XCJce1x9LSUrQU5OT1RBVElPTkc2Jy0lKUJPVU5EU19YRzYjJCIiISEiIi0lKUJPVU5EU19ZR0YnLSUtQk9VTkRTX1dJRFRIRzYjJCIlP0ZGKi0lLkJPVU5EU19IRUlHSFRHNiMkIiRJJkYqLSUpQ0hJTERSRU5HNiI=LUklbXJvd0c2Iy9JK21vZHVsZW5hbWVHNiJJLFR5cGVzZXR0aW5nR0koX3N5c2xpYkdGJzYnLUkjbWlHRiQ2JVEsQUFnZW5vdHlwZTFGJy8lJ2l0YWxpY0dRJXRydWVGJy8lLG1hdGh2YXJpYW50R1EnaXRhbGljRictSSNtb0dGJDYtUSIrRicvRjNRJ25vcm1hbEYnLyUmZmVuY2VHUSZmYWxzZUYnLyUqc2VwYXJhdG9yR0Y9LyUpc3RyZXRjaHlHRj0vJSpzeW1tZXRyaWNHRj0vJShsYXJnZW9wR0Y9LyUubW92YWJsZWxpbWl0c0dGPS8lJ2FjY2VudEdGPS8lJ2xzcGFjZUdRLDAuMjIyMjIyMmVtRicvJSdyc3BhY2VHRkwtRiw2JVEsQWFnZW5vdHlwZTFGJ0YvRjJGNS1GLDYlUSxhYWdlbm90eXBlMUYnRi9GMg==Beregning af sandsynligheden for de alleler, som indg\303\245r i forplantningen.NB: vi antager, at LUklbXJvd0c2Iy9JK21vZHVsZW5hbWVHNiJJLFR5cGVzZXR0aW5nR0koX3N5c2xpYkdGJzYoLUkjbWlHRiQ2KVEjYWFGJy8lJWJvbGRHUSV0cnVlRicvJSdpdGFsaWNHRjEvJStmb3JlZ3JvdW5kR1EqWzI1NSwwLDBdRicvJStleGVjdXRhYmxlR1EmZmFsc2VGJy8lLG1hdGh2YXJpYW50R1EsYm9sZC1pdGFsaWNGJy8lK2ZvbnR3ZWlnaHRHUSVib2xkRidGL0Y0RjcvRjtGP0Y9 genotypen f\303\245r ikke afkom.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Nu har vi de sandsynligheder, som indg\303\245r i forplantningen til n\303\246ste generation.LUklbXJvd0c2Iy9JK21vZHVsZW5hbWVHNiJJLFR5cGVzZXR0aW5nR0koX3N5c2xpYkdGJzYlLUkjbWlHRiQ2JVEsQUFnZW5vdHlwZTFGJy8lJ2l0YWxpY0dRJXRydWVGJy8lLG1hdGh2YXJpYW50R1EnaXRhbGljRictSSNtb0dGJDYtUSIrRicvRjNRJ25vcm1hbEYnLyUmZmVuY2VHUSZmYWxzZUYnLyUqc2VwYXJhdG9yR0Y9LyUpc3RyZXRjaHlHRj0vJSpzeW1tZXRyaWNHRj0vJShsYXJnZW9wR0Y9LyUubW92YWJsZWxpbWl0c0dGPS8lJ2FjY2VudEdGPS8lJ2xzcGFjZUdRLDAuMjIyMjIyMmVtRicvJSdyc3BhY2VHRkwtRiw2JVEsQWFnZW5vdHlwZTFGJ0YvRjI=Sandsynligheder for allelerne A og a, som de indg\303\245r i forplantningen: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generation:Beregning af sandsynlighederne for genotyper AA, Aa og 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LSUrQU5OT1RBVElPTkc2Jy0lKUJPVU5EU19YRzYjJCIiISEiIi0lKUJPVU5EU19ZR0YnLSUtQk9VTkRTX1dJRFRIRzYjJCIlNUZGKi0lLkJPVU5EU19IRUlHSFRHNiMkIiQ/JkYqLSUpQ0hJTERSRU5HNiI=LUklbXJvd0c2Iy9JK21vZHVsZW5hbWVHNiJJLFR5cGVzZXR0aW5nR0koX3N5c2xpYkdGJzYnLUkjbWlHRiQ2JVEsQUFnZW5vdHlwZTJGJy8lJ2l0YWxpY0dRJXRydWVGJy8lLG1hdGh2YXJpYW50R1EnaXRhbGljRictSSNtb0dGJDYtUSIrRicvRjNRJ25vcm1hbEYnLyUmZmVuY2VHUSZmYWxzZUYnLyUqc2VwYXJhdG9yR0Y9LyUpc3RyZXRjaHlHRj0vJSpzeW1tZXRyaWNHRj0vJShsYXJnZW9wR0Y9LyUubW92YWJsZWxpbWl0c0dGPS8lJ2FjY2VudEdGPS8lJ2xzcGFjZUdRLDAuMjIyMjIyMmVtRicvJSdyc3BhY2VHRkwtRiw2JVEsQWFnZW5vdHlwZTJGJ0YvRjJGNS1GLDYlUSxhYWdlbm90eXBlMkYnRi9GMg==Beregning af sandsynligheden for de alleler, som indg\303\245r i forplantningen.NB: vi antager, at LUklbXJvd0c2Iy9JK21vZHVsZW5hbWVHNiJJLFR5cGVzZXR0aW5nR0koX3N5c2xpYkdGJzYoLUkjbWlHRiQ2KVEjYWFGJy8lJWJvbGRHUSV0cnVlRicvJSdpdGFsaWNHRjEvJStmb3JlZ3JvdW5kR1EqWzI1NSwwLDBdRicvJStleGVjdXRhYmxlR1EmZmFsc2VGJy8lLG1hdGh2YXJpYW50R1EsYm9sZC1pdGFsaWNGJy8lK2ZvbnR3ZWlnaHRHUSVib2xkRidGL0Y0RjcvRjtGP0Y9 genotypen f\303\245r ikke afkom.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Nu har vi de sandsynligheder, som indg\303\245r i forplantningen til n\303\246ste generation.LUklbXJvd0c2Iy9JK21vZHVsZW5hbWVHNiJJLFR5cGVzZXR0aW5nR0koX3N5c2xpYkdGJzYlLUkjbWlHRiQ2JVEsQUFnZW5vdHlwZTJGJy8lJ2l0YWxpY0dRJXRydWVGJy8lLG1hdGh2YXJpYW50R1EnaXRhbGljRictSSNtb0dGJDYtUSIrRicvRjNRJ25vcm1hbEYnLyUmZmVuY2VHUSZmYWxzZUYnLyUqc2VwYXJhdG9yR0Y9LyUpc3RyZXRjaHlHRj0vJSpzeW1tZXRyaWNHRj0vJShsYXJnZW9wR0Y9LyUubW92YWJsZWxpbWl0c0dGPS8lJ2FjY2VudEdGPS8lJ2xzcGFjZUdRLDAuMjIyMjIyMmVtRicvJSdyc3BhY2VHRkwtRiw2JVEsQWFnZW5vdHlwZTJGJ0YvRjI=Sandsynligheder for allelerne A og a, som de indg\303\245r i forplantningen: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LUklbXJvd0c2Iy9JK21vZHVsZW5hbWVHNiJJLFR5cGVzZXR0aW5nR0koX3N5c2xpYkdGJzYlLUkjbWlHRiQ2JVEjQTJGJy8lJ2l0YWxpY0dRJXRydWVGJy8lLG1hdGh2YXJpYW50R1EnaXRhbGljRictSSNtb0dGJDYtUSIrRicvRjNRJ25vcm1hbEYnLyUmZmVuY2VHUSZmYWxzZUYnLyUqc2VwYXJhdG9yR0Y9LyUpc3RyZXRjaHlHRj0vJSpzeW1tZXRyaWNHRj0vJShsYXJnZW9wR0Y9LyUubW92YWJsZWxpbWl0c0dGPS8lJ2FjY2VudEdGPS8lJ2xzcGFjZUdRLDAuMjIyMjIyMmVtRicvJSdyc3BhY2VHRkwtRiw2JVEjYTJGJ0YvRjI=3. generation:Beregning af sandsynlighederne for genotyper AA, Aa og 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LUklbXJvd0c2Iy9JK21vZHVsZW5hbWVHNiJJLFR5cGVzZXR0aW5nR0koX3N5c2xpYkdGJzYnLUkjbWlHRiQ2JVEsQUFnZW5vdHlwZTNGJy8lJ2l0YWxpY0dRJXRydWVGJy8lLG1hdGh2YXJpYW50R1EnaXRhbGljRictSSNtb0dGJDYtUSIrRicvRjNRJ25vcm1hbEYnLyUmZmVuY2VHUSZmYWxzZUYnLyUqc2VwYXJhdG9yR0Y9LyUpc3RyZXRjaHlHRj0vJSpzeW1tZXRyaWNHRj0vJShsYXJnZW9wR0Y9LyUubW92YWJsZWxpbWl0c0dGPS8lJ2FjY2VudEdGPS8lJ2xzcGFjZUdRLDAuMjIyMjIyMmVtRicvJSdyc3BhY2VHRkwtRiw2JVEsQWFnZW5vdHlwZTNGJ0YvRjJGNS1GLDYlUSxhYWdlbm90eXBlM0YnRi9GMg==Beregning af sandsynligheden for de alleler, som indg\303\245r i forplantningen.NB: vi antager, at LUklbXJvd0c2Iy9JK21vZHVsZW5hbWVHNiJJLFR5cGVzZXR0aW5nR0koX3N5c2xpYkdGJzYoLUkjbWlHRiQ2KVEjYWFGJy8lJWJvbGRHUSV0cnVlRicvJSdpdGFsaWNHRjEvJStmb3JlZ3JvdW5kR1EqWzI1NSwwLDBdRicvJStleGVjdXRhYmxlR1EmZmFsc2VGJy8lLG1hdGh2YXJpYW50R1EsYm9sZC1pdGFsaWNGJy8lK2ZvbnR3ZWlnaHRHUSVib2xkRidGL0Y0RjcvRjtGP0Y9 genotypen f\303\245r ikke afkom.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Nu har vi de sandsynligheder, som indg\303\245r i forplantningen til n\303\246ste generation.LUklbXJvd0c2Iy9JK21vZHVsZW5hbWVHNiJJLFR5cGVzZXR0aW5nR0koX3N5c2xpYkdGJzYlLUkjbWlHRiQ2JVEsQUFnZW5vdHlwZTNGJy8lJ2l0YWxpY0dRJXRydWVGJy8lLG1hdGh2YXJpYW50R1EnaXRhbGljRictSSNtb0dGJDYtUSIrRicvRjNRJ25vcm1hbEYnLyUmZmVuY2VHUSZmYWxzZUYnLyUqc2VwYXJhdG9yR0Y9LyUpc3RyZXRjaHlHRj0vJSpzeW1tZXRyaWNHRj0vJShsYXJnZW9wR0Y9LyUubW92YWJsZWxpbWl0c0dGPS8lJ2FjY2VudEdGPS8lJ2xzcGFjZUdRLDAuMjIyMjIyMmVtRicvJSdyc3BhY2VHRkwtRiw2JVEsQWFnZW5vdHlwZTNGJ0YvRjI=Sandsynligheder for allelerne A og a, som de indg\303\245r i forplantningen: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generationsberegning (\303\251n generation)LUklbXJvd0c2Iy9JK21vZHVsZW5hbWVHNiJJLFR5cGVzZXR0aW5nR0koX3N5c2xpYkdGJzYjLUkjbWlHRiQ2JVEocmVzdGFydEYnLyUnaXRhbGljR1EldHJ1ZUYnLyUsbWF0aHZhcmlhbnRHUSdpdGFsaWNGJw==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Beregning af sandsynligheden for de alleler, som indg\303\245r i forplantningen.NB: vi antager, at LUklbXJvd0c2Iy9JK21vZHVsZW5hbWVHNiJJLFR5cGVzZXR0aW5nR0koX3N5c2xpYkdGJzYoLUkjbWlHRiQ2KVEjYWFGJy8lJWJvbGRHUSV0cnVlRicvJSdpdGFsaWNHRjEvJStmb3JlZ3JvdW5kR1EqWzI1NSwwLDBdRicvJStleGVjdXRhYmxlR1EmZmFsc2VGJy8lLG1hdGh2YXJpYW50R1EsYm9sZC1pdGFsaWNGJy8lK2ZvbnR3ZWlnaHRHUSVib2xkRidGL0Y0RjcvRjtGP0Y9 genotypen f\303\245r ikke afkom.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 har vi de sandsynligheder, som indg\303\245r i forplantningen til n\303\246ste generation.LUklbXJvd0c2Iy9JK21vZHVsZW5hbWVHNiJJLFR5cGVzZXR0aW5nR0koX3N5c2xpYkdGJzYkLUkjbWlHRiQ2JVEpc2ltcGxpZnlGJy8lJ2l0YWxpY0dRJXRydWVGJy8lLG1hdGh2YXJpYW50R1EnaXRhbGljRictSShtZmVuY2VkR0YkNiQtRiM2JS1GLDYlUSxBQWdlbm90eXBlMUYnRi9GMi1JI21vR0YkNi1RIitGJy9GM1Enbm9ybWFsRicvJSZmZW5jZUdRJmZhbHNlRicvJSpzZXBhcmF0b3JHRkUvJSlzdHJldGNoeUdGRS8lKnN5bW1ldHJpY0dGRS8lKGxhcmdlb3BHRkUvJS5tb3ZhYmxlbGltaXRzR0ZFLyUnYWNjZW50R0ZFLyUnbHNwYWNlR1EsMC4yMjIyMjIyZW1GJy8lJ3JzcGFjZUdGVC1GLDYlUSxBYWdlbm90eXBlMUYnRi9GMkZBSandsynligheder for allelerne A og a, som de indg\303\245r i forplantningen: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LUklbXJvd0c2Iy9JK21vZHVsZW5hbWVHNiJJLFR5cGVzZXR0aW5nR0koX3N5c2xpYkdGJzYkLUkjbWlHRiQ2JVEpc2ltcGxpZnlGJy8lJ2l0YWxpY0dRJXRydWVGJy8lLG1hdGh2YXJpYW50R1EnaXRhbGljRictSShtZmVuY2VkR0YkNiQtRiM2JS1GLDYlUSNBMUYnRi9GMi1JI21vR0YkNi1RIitGJy9GM1Enbm9ybWFsRicvJSZmZW5jZUdRJmZhbHNlRicvJSpzZXBhcmF0b3JHRkUvJSlzdHJldGNoeUdGRS8lKnN5bW1ldHJpY0dGRS8lKGxhcmdlb3BHRkUvJS5tb3ZhYmxlbGltaXRzR0ZFLyUnYWNjZW50R0ZFLyUnbHNwYWNlR1EsMC4yMjIyMjIyZW1GJy8lJ3JzcGFjZUdGVC1GLDYlUSNhMUYnRi9GMkZBKonklusion: generationen med 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 og 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allelen LUklbXJvd0c2Iy9JK21vZHVsZW5hbWVHNiJJLFR5cGVzZXR0aW5nR0koX3N5c2xpYkdGJzYpLUkjbWlHRiQ2KlEiYUYnLyUlc2l6ZUdRIzE2RicvJSVib2xkR1EldHJ1ZUYnLyUnaXRhbGljR0Y0LyUrZm9yZWdyb3VuZEdRLFsyNTUsMCwyNTVdRicvJStleGVjdXRhYmxlR1EmZmFsc2VGJy8lLG1hdGh2YXJpYW50R1EsYm9sZC1pdGFsaWNGJy8lK2ZvbnR3ZWlnaHRHUSVib2xkRidGL0YyRjdGOi9GPkZCRkA= udd\303\270r p\303\245 lang sigt.For 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 har man formlen LUklbXJvd0c2Iy9JK21vZHVsZW5hbWVHNiJJLFR5cGVzZXR0aW5nR0koX3N5c2xpYkdGJzYlLUkmbWZyYWNHRiQ2KC1JI21uR0YkNiVRIjFGJy8lK2V4ZWN1dGFibGVHUSZmYWxzZUYnLyUsbWF0aHZhcmlhbnRHUSdub3JtYWxGJy1GIzYoRi4tSSNtb0dGJDYuUSIrRidGMkY1LyUmZmVuY2VHRjQvJSpzZXBhcmF0b3JHRjQvJSlzdHJldGNoeUdGNC8lKnN5bW1ldHJpY0dGNC8lKGxhcmdlb3BHRjQvJS5tb3ZhYmxlbGltaXRzR0Y0LyUnYWNjZW50R0Y0LyUnbHNwYWNlR1EsMC4yMjIyMjIyZW1GJy8lJ3JzcGFjZUdGTi1JJW1zdWJHRiQ2JS1JI21pR0YkNiZRInFGJy8lJ2l0YWxpY0dRJXRydWVGJ0YyL0Y2USdpdGFsaWNGJy1GIzYmLUZVNiZRIm5GJ0ZYRjJGZW5GWEYyRmVuLyUvc3Vic2NyaXB0c2hpZnRHUSIwRidGWEYyRmVuLyUubGluZXRoaWNrbmVzc0dGMS8lK2Rlbm9tYWxpZ25HUSdjZW50ZXJGJy8lKW51bWFsaWduR0Zjby8lKWJldmVsbGVkR0Y0RjJGNQ==Dvs. man f\303\245r:Formler: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KiQsJiIiIkYkKiQsKEkibkc2IkYkISIiRiQqJCwmRiRGJCZJIkFHRig2IyIiIUYpRilGJEYpRiRGKQ==JkkiQUc2IjYjSSJuR0YkLUkmbGltaXRHNiQlKnByb3RlY3RlZEdJKF9zeXNsaWJHNiI2JCokLCYiIiJGKyokLChJIm1HRidGKyEiIkYrKiQsJkYrRismSSJBR0YnNiMiIiFGL0YvRitGL0YrRi8vRi5JKWluZmluaXR5R0YlDvs. allelen LUklbXJvd0c2Iy9JK21vZHVsZW5hbWVHNiJJLFR5cGVzZXR0aW5nR0koX3N5c2xpYkdGJzYpLUkjbWlHRiQ2KlEiQUYnLyUlc2l6ZUdRIzE2RicvJSVib2xkR1EldHJ1ZUYnLyUnaXRhbGljR0Y0LyUrZm9yZWdyb3VuZEdRLFsyNTUsMCwyNTVdRicvJStleGVjdXRhYmxlR1EmZmFsc2VGJy8lLG1hdGh2YXJpYW50R1EsYm9sZC1pdGFsaWNGJy8lK2ZvbnR3ZWlnaHRHUSVib2xkRidGL0YyRjdGOi9GPkZCRkA= dominerer fuldst\303\246ndigt p\303\245 lang sigt.