{
 "cells": [
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "# Simulation de décroissance radioactive\n",
    "Simulation de décroissance radioactive par le jet de dés\n",
    "\n",
    "code sous licence creative commun CC BY-NC-SA BY Alexis Dendiével"
   ]
  },
  {
   "cell_type": "raw",
   "metadata": {
    "raw_mimetype": "text/restructuredtext"
   },
   "source": [
    ":download:`Télécharger le pdf <./decroissance_radioactive.pdf>`\n",
    "\n",
    ":download:`Télécharger le notebook <./decroissance_radioactive.ipynb>`\n",
    "\n",
    ":download:`Lancer le notebook sur binder (lent) <https://mybinder.org/v2/gl/pyspc%2Fpyspc/master?filepath=07-activites%2F00-terminale%2Fdecroissance_radioactive%2Fdecroissance_radioactive.ipynb>`"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 1,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "pour combien d'atomes radioactifs voulez-vous faire la simulation? : 100\n"
     ]
    },
    {
     "data": {
      "image/png": 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J+m1hhyMiEv8EEfgO8LiZzQYGAXcAdwGnmtli4JRgP61cPqIbLbIyePi/mn5DRMJX55Kj1cysNcFoajM7AugDvOTujR7Z5e6ziPRFHGxsY78zFbTPa8H5g0t5akYZN556JB3atAg7JBFJY9HUIP4D5JpZCfBv4HLg0VgGlc6+dnwP9u6r4reTl4QdioikuWgShLn7J8B5wO/c/ULg6NiGlb56dsjj4uO68Ld3VrJiw/awwxGRNBZVgjCzEcCXgBeCY5mxC0luOOUIcrIy+PkrC8MORUTSWDQJ4nrgVuAZd58XrE89ObZhpbeO+bmMO7EnL85Zy4yVm8IOR0TSVDTjIKa6+9lEFgzC3Ze5+7UxjyzNff2EnnRo04KfvbCgeuCgiEhcRbOi3Agzmw8sDPYHmtnvYh5ZmmvdIosbTz2Cmau28LLmaBKREETTxHQf8DlgI4C7f0Bksj2JsQsHl3JEcR53v7yQ3Xs106uIxFdUA+Xc/eDFCvbFIBY5SFZmBreefhQrNn7C49OaMruJiMihiyZBfGRmIwE3s2wz+x6R9RskDkYf2YGRvYp4YNJiKnZo1TkRiZ9oEsTVwDVACVBOZGqMa2IZlHzKzPjBGUexZccefj9ladjhiEgaieYppg3u/iV3L3b3ju5+mbtvjEdwEtGvpIAvDCrhkTeXU75lR9jhiEiaiOYpph5mdq+ZTTCz56q3eAQnn/ru5yKT397zyochRyIi6aLByfqAZ4ksD/o8oEdpQlJS2JKvjOrBH6Yu5avH96BfSUHYIYlIioumD2Knuz/g7pODQXNT3X1qzCOTz/jWmF60bZXNHS9q8JyIxF40CeJ+M7stGDB3bPUW88jkM/Jzs7lu7OG8tXQjUz78OOxwRCTFRdPE1J/IFN8n82kTkwf7EmeXDuvGo2+t4I4XF3DLINUiRCR2okkQFwI93X13rIORhuVkZXDzaX345uMzeaM8J71XWBKRmIqmiWkuUBjrQCR6p/U7jMHd2vLMkj1s3anBcyISG9EkiEJgoZm9osdcE4OZ8aMz+7Jtt3P7xHlhhyMiKSqaJqbbYh6FHLKBXQo5u1c2E94vZ3Sfjpw9sHPYIYlIiolqPQgiU323CbYFesw1MZzVM5tjuxbyv8/M0QhrEWl20Yykvgh4l0hn9UXANDO7INaBScMyM4z7Lj6Gqirnhidnsa9KTzWJSPOJpg/if4Hj3P1Kd78CGAr8v9iGJdHqWtSKn5zTj3eXb+IPUzWZn4g0n2gSRIa7r6+xvzHKz0mcnHdsCZ8f0IlfvbqI2WVbwg5HRFJENH/oXw6eYLrKzK4CXgBeim1YcijMjDvO7U+HNi24fvwsPtm9N+yQRCQFRNNJfRPwR2BAsD3o7t+PdWByaApaZXPvRYNYvnE7P/2X1nMSkaaLppP6bnef4O43BtszZnZ3PIKTQzOiVxHfOLEXf393Fa/MWxt2OCKS5KJpYjq1lmOnN3cg0jxuPPUI+pXkc8vTs1m3dWfY4YhIEqszQZjZN81sDnCkmc2usS0HZscvRDkUOVkZ3P/FY9ixZx/f++cHVOnRVxFppPpqEE8AZwHPBa/V22B3vywOsUkj9eqQx/87sy9vLN7An99aEXY4IpKk6kwQ7l7h7ivc/RJ3XwnsIDLNd56ZdW3qhc0s08zeN7N/Bfs9zGyamS0xsyfNLKep10hnlw7tyilHFXP3SwtZsGZr2OGISBKKppP6LDNbDCwHpgIraJ7HXK8Daj5uczfwK3fvDWwGvtoM10hbZsbd5/enoFW2RlmLSKNE00n9f8BwYJG79wDGAu805aJmVgp8HvhTsG9EFiB6KjjlMeDcplxDoCivBbefdTQL127j+Q9Whx2OiCSZaBLEHnffCGSYWYa7TwaGNPG69wHf59MV6oqALe5ePcKrDChp4jUEOL3fYRxZ3IYHXl+sWoSIHBJzr/+Phpm9RuR/83cC7YH1ROZmGtmoC5qdCZzh7t8ys9HA94CrgHeC5iXMrAvwkrv3q+Xz44BxAMXFxYPHjx/fmDCorKwkLy+vUZ9NFNGW4d21e/ndrF1cPaAFwztHM8N7/KTCfYDUKIfKkBjiUYYxY8bMcPeG/6Pv7vVuQGsiNY0s4ErgWqCooc/V8313EqkhrADWAp8AjwMbgKzgnBHAKw191+DBg72xJk+e3OjPJopoy7BvX5Wfeu8UH/vLKb53X1VsgzpEqXAf3FOjHCpDYohHGYDpHsXf62im2tju7lXuvtfdH3P3BzzS5NQo7n6ru5e6e3fgi8Dr7v4lYDJQPY34lcDExl5DDpSRYXzn5MNZsr6SF+esCTscEUkS9Q2UW25my8xsWpxiuRm40cyWEOmTeDhO100LZ/TvRO+Oefz69cUaPCciUalvHEQPd+/p7sNidXF3n+LuZwbvl7n7UHfv7e4XuvuuWF03HWVmGNeOPZxF6yp5aa7maRKRhtVXg2hX3xbPIKV5fL5/J3p1aM0Dk1SLEJGG1dcHMQOYHrx+DCwCFgfvZ8Q+NGlu1bWID9dt02yvItKgBpuYgNeAs9y9vbsXAWcC/45XgNK8zhzQmZ4dWnO/ahEi0oBoBsoNd/cXq3fc/SWgUWMgJHyZGcZ3Tu7NwrXb+Pd81SJEpG7RJIjVZvZDM+sebP8LaN6GJHbWgM70aN+a+yctUS1CROoUTYK4BOgAPANMCN5fEsugJLayMjP49pjeLFizlVcXrAs7HBFJUNEMlNvk7te5+zHufqy7X+/um+IRnMTOOYM6072oFQ9MWlw9wl1E5ADR1CAkBWVlZnDNmN7MW72V1xasDzscEUlAShBp7AvHlNCtqBX3T1qkWoSIfIYSRBqrrkXMLd/K6wtVixCRA0WzotwRZjbJzOYG+wPM7IexD03i4QvHlNClXUvuV1+EiBwkmhrEQ8CtwB4Ad59NZBZWSQHZwRNNs8sqmPLhx2GHIyIJJJoE0crd3z3o2N5az5SkdN6xpZS2bclNT81m4qxy1SREBIguQWwws16AA5jZBYAWFUgh2ZkZPHj5EDoV5HLd+Fl86U/TWLJ+W9hhiUjIokkQ1wB/BPqYWTlwPXB1TKOSuOvbOZ9nrxnFT8/tx9zyCk677w3ufGkB23epsiiSrupdoNjMMoAh7n6KmbUGMtxd/7VMUZkZxuXDu3FGv8O466WF/HHqMp6btZofndmX0/odhpmFHaKIxFG9NQh3rwK+H7zfruSQHoryWvCLCwfy1NUjKGyVwzcfn8kVj7zL8g3bww5NROIomiam18zse2bWRQsGpZch3dvx/LdHcdtZfZm1aguf+9V/uOeVD9mxe1/YoYlIHNTbxBS4OHi9psYxB3o2fziSaLIyM/jyqB58fkAn7nxxIb+ZvIR5qyt45Krj1OQkkuIaTBDu3iMegUhi69gml19dPIgBpQX8+Pn5/PWdlVwxonvYYYlIDEUzkjrXzG40swlm9rSZXW9mufEIThLPVSO7M/rIDvzshQUsXqcuKZFUFk0fxF+Ao4FfA78J3v81lkFJ4jIzfn7BAPJaZHHt+Fns2qv+CJFUFU2C6OfuX3X3ycH2dSJJQtJUxza5/PyCASxYs5V7Xvkw7HBEJEaiSRAzzWx49Y6ZDQOmxy4kSQZjjyrmsuFdeeiN5fx38YawwxGRGKgzQZjZHDObDQwG3jKzFWa2AngbGBKn+CSB/e8ZfenVoTXf/ecsNm/fHXY4ItLM6qtBnAmcBZwG9ABOCrYewOmxD00SXcucTO7/4jFs2r6bWyfM0SR/IimmzgTh7iurN2ArUAAU1dhE6FdSwE2fO5KX563ln9PLwg5HRJpRg+MgzOynwFXAUoIZXYPXk2MXliSTrx3fkykffsztz8/juB7t6NG+ddghiUgziKaT+iKgl7uPdvcxwabkIPtlZBi/vGgg2ZkZXD/+ffbsqwo7JBFpBtEkiLlAYawDkeTWqaAld53Xnw/KKnhg0uKwwxGRZhDNXEx3Au8Ha1Lvqj7o7mfHLCpJSqf378SFg0v57eQlnHhEB47rrjkdRZJZNAniMeBuYA7Q5LYDM+tCZHR2MZG+jAfd/f5ghtgnge7ACuAid9/c1OtJfN129tG8u2IT14+fxTPfGknHfM3KIpKsomli+sTdHwhGUU+t3ppwzb3Ad929LzAcuMbM+gK3AJPc/XBgUrAvSSavRRb3XTyI9dt2Muru17nm8Zm8uWQDVVV6BFYk2URTg3jDzO4EnuPAJqaZjbmgu68hWNPa3beZ2QKgBDgHGB2c9hgwBbi5MdeQcB3TtS2vXH8ij09bxdMzy3hhzhq6F7Xi0mFduWBwF9q1zgk7RBGJgjU0uMnMJtdy2JvjSSYz6w78B+gHrHL3wuC4AZur9w/6zDhgHEBxcfHg8ePHN+ralZWV5OXlNS7wBJEMZdi9z5m+bh9TPtrDos1VZBkMOSyT0V2yObJtBtu3b0/4MkQjGe5FQ1SGxBCPMowZM2aGuzc4I0aDCSJWzCwPmAr8zN0nmNmWmgnBzDa7e9v6vmPIkCE+fXrjpoWaMmUKo0ePbtRnE0WylWHRum08MW0VE2aWsXXnXnp1aM3Qoj3cfNFJFLZK7lpFst2L2qgMiSEeZTCzqBJENOtBFJjZvWY2Pdh+aWYFTQwuG3gaeNzdJwSH15lZp+DnnYD1TbmGJJ4jittw+9lHM+0Hp3DPhQMpaJnN3xfuZugdk7jhyVm8t2KTpusQSSDR9EE8QmQsxEXB/uXAn4HzGnPBoPnoYWCBu99b40fPAVcCdwWvExvz/ZL4WuZkcsHgUi4YXMpfn3+dxVUdeWZmOc+8X84RxXlcMrQr5x1TSkGr7LBDFUlr0SSIXu5+fo39H5vZrCZccxSRJDOnxvf8gEhi+IeZfRVYyacJSVJYlzYZXD66H7ec3ofnP1jNE9NW8ePn53P3ywv5fP/OXDqsK8d2LdT61yIhiCZB7DCz4939vwBmNgrY0dgLBt9T12/72MZ+ryS3VjlZXHxcVy4+ritzyyt44t1VTHy/nKdnltHnsDZ8eVR3LhrSRYlCJI6iSRBXA38J+h0M2ERk8j6RmOhXUsAdX+jPD844iudmrebxaSu5+ek5LNuwnVtO66MkIRInDSYId/8AGGhm+cH+1phHJUJk0N2lw7pyydAu/GjiPP44dRmGcfNpRypJiMRBNNN9twDOJzIFRlb1L6a7/ySmkYkEzIyfnHM0jvOHqUvJMLjpc0oSIrEWTRPTRKACmEGNkdQi8WRm/OTsflQ5/G7KUszge/+jJCESS9EkiFJ3Py3mkYg0ICPD+L9z+uHu/HbyUjLMuPHUI5QkRGIkmgTxlpn1d/c5MY9GpAEZGcbPzu2PO/z69SVYkCREpPlFkyCOB64ys+VEmpiMyFxMA2IamUgdMjKMO77Qnyp3Hpi0mAyD609RkhBpbtEkiNNjHoXIIcrIMO46bwBVDve9thjDuO6Uw8MOSySlRPOY68p4BCJyqDIyjLvPH4A7/Oq1RZjBtWOVJESaSzQ1CJGElZlh/PyCAbg79766iHVbdzL2qI70KymgYxutZifSFEoQkvQyM4xfXDiQnKwMnnh3FY9PWwXAYfm59C8toH9Jwf7X9nktQo5WJHkoQUhKyMww7jp/AD88sy/zV29ldtkW5pZXMLu8gtcWrKN6FvHOBbn0KyngxCM6cM6gzrTJ1YyxInVRgpCUktcii6E92jG0R7v9x7bt3MO81VuZU1bBnPIKPijbwr/nr+OOFxdw9sDIjLEDSj+zeKFI2lOCkJTXJjeb4T2LGN6zCAB354OyCp6YtpKJs1Yz/r2P6FeSz6VDu3H2oM7ktdCvhQgoQUgaMjMGdSlkUJdCfnhmX559v5wnpq3iB8/M4WcvzOecY0q4dGhX+pU0aeFEkaSnBCFpLT83mytGdOfy4d2YuWoLT0xbxdMzynhi2ioGlhZwcp9iBpQW0K+kgA5t1MEt6UUJQoRIrWJwt7YM7taWH53Zlwnvl/GP6WXcN2nR/g7uTkEH94AaT0UV6akoSWFKECIHKWiVzZdH9eDLo3pQuWsv88ojndvV26vz1+0/t6SwJf1K8snbvRvr/DH9Swpo1zonxOhFmo8ShEg98lpkMaxnEcOCDm747FNRs8u2sGLjHp5e/C4ApW1bHjC8EDbYAAAKIUlEQVT2on9JAYWtlDQk+ShBiByig5+KAnjh1cm07dmfOWWRsRdzyyt4ae7a/T/v0q4lA0oKI01UpQX061xAQSuNwZDEpgQh0gxaZxsje7VnZK/2+49VfLKHuasrmF1WwZzyLXxQtoUX5qzZ//NuRa0+7dMoKeDokgIKWippSOJQghCJkYJW2Yzq3Z5RvT9NGpu37/60P6OsglmrtvDC7E+TRveiVvQvLaR/ST79SwrpV5Kv0d4SGiUIkThq2zqHE4/owIlHdNh/bFN10ijbwpzyCmas2MTzH6ze//Oe7Vsf0J9xdEmBBvNJXOhfmUjI2rXO4aQjOnBSjaSxoXIXc8ormBv0aUxbtomJsyJJwyxIGiUFQW2jgKM759NaSUOamf5FiSSg9nktGHNkR8Yc2XH/sfXbdjK3vII5ZVuZU76Ft5dt5NkaSaN3h7wDnp7q2zmfVjn6FZfG078ekSTRsU0uJ/fJ5eQ+xfuPrd+6M3jUNvLk1BtLNjDh/XIAMgx6d8yjf0nQp1FaSN9O+bTMyQyrCJJklCBEkljH/FzG5ucy9qhPk8a6rTuDJ6ci/RpTF63n6ZllQGRa9MM75n36uG1JAX075ZObraQhn6UEIZJiivNzObVvLqf2jSQNd2dtkDTmBrWNyQvX89SMA5PGvp07+M2Ct+Iaa0HLbI4OHvUdUFpAx3ytAphIlCBEUpyZ0amgJZ0KWvK5ow8DIkljdcXOYDT4Fhas2cbaj7fTIjsjrrF9tPkTJn+4nqpgvquObVowoLQg0ixWGnnUV5MkhkcJQiQNmRklhS0pKWzJaf0iSWPKlCmMHj087rF8sntvsApgxf5VACctXL9/ksTD8nMpzm8R6YlvwLatO/jVvDdjHPGBWudk0q+kYP+gx25FrbAoYk0GCZUgzOw04H4gE/iTu98VckgiEmOtcrIY0r0dQ7p/ugpg5a69Bywdu/mTPVF9V9UOozDOo9E3f7KbR99cwe59VQDk52bRr8bTZANKCunSrmVSJo2ESRBmlgn8FjgVKAPeM7Pn3H1+uJGJSLzVtnRsNCK1oKExiqpuu/dWsWjdtgNGyT/y3+Xs2RepBhW0zKZzYUuiSRE5e3cya++i/Q8RdGwTXr9MwiQIYCiwxN2XAZjZeOAcQAlCRBJaTlbG/mamS4Jju/buY9HayiBpbOHjbbsb/B53Z/5H27h/0uIDmtj2j6QPXtvHaR2SREoQJcBHNfbLgGEhxSIi0iQtsjIjf9BLC4CuUX9uypQpDBlxfL3rkHQuyOXm0/twzqCSGET+KfPqNBUyM7sAOM3dvxbsXw4Mc/dvH3TeOGAcQHFx8eDx48c36nqVlZXk5eU1LeiQqQyJIxXKoTIkhrrK8MkeZ+XWKlZsrWJFxT5Gd8nmqKLGjV8ZM2bMDHcf0tB5iVSDKAe61NgvDY4dwN0fBB4EGDJkiI8ePbpRF4u0VTbus4lCZUgcqVAOlSExJFIZ4vvQc/3eAw43sx5mlgN8EXgu5JhERNJWwtQg3H2vmX0beIXIY66PuPu8kMMSEUlbCZMgANz9ReDFsOMQEZHEamISEZEEogQhIiK1UoIQEZFaKUGIiEitlCBERKRWCTOSujHM7GNgZSM/3h7Y0IzhhEFlSBypUA6VITHEowzd3L1DQycldYJoCjObHs1Q80SmMiSOVCiHypAYEqkMamISEZFaKUGIiEit0jlBPBh2AM1AZUgcqVAOlSExJEwZ0rYPQkRE6pfONQgREalHWiYIMzvNzD40syVmdkvY8TSGma0wszlmNsvMpocdTzTM7BEzW29mc2sca2dmr5rZ4uC1bZgxNqSOMtxuZuXBvZhlZmeEGWNDzKyLmU02s/lmNs/MrguOJ829qKcMSXMvzCzXzN41sw+CMvw4ON7DzKYFf5+eDJY/CCfGdGtiMrNMYBFwKpFlTd8DLnH3pFr72sxWAEPcPWme+TazE4FK4C/u3i849nNgk7vfFSTrtu5+c5hx1qeOMtwOVLr7PWHGFi0z6wR0cveZZtYGmAGcC1xFktyLespwEUlyL8zMgNbuXmlm2cB/geuAG4EJ7j7ezP4AfODuvw8jxnSsQQwFlrj7MnffDYwHzgk5prTg7v8BNh10+BzgseD9Y0R+yRNWHWVIKu6+xt1nBu+3AQuIrAmfNPeinjIkDY+oDHazg82Bk4GnguOh3od0TBAlwEc19stIsn9YAQf+bWYzgnW6k1Wxu68J3q8FisMMpgm+bWazgyaohG2aOZiZdQeOAaaRpPfioDJAEt0LM8s0s1nAeuBVYCmwxd33BqeE+vcpHRNEqjje3Y8FTgeuCZo+kppH2juTsc3z90AvYBCwBvhluOFEx8zygKeB6919a82fJcu9qKUMSXUv3H2fuw8CSom0bvQJOaQDpGOCKAe61NgvDY4lFXcvD17XA88Q+ceVjNYF7cnV7crrQ47nkLn7uuAXvQp4iCS4F0Gb99PA4+4+ITicVPeitjIk470AcPctwGRgBFBoZtWrfYb69ykdE8R7wOHBkwI5wBeB50KO6ZCYWeugYw4zaw38DzC3/k8lrOeAK4P3VwITQ4ylUar/qAa+QILfi6Bz9GFggbvfW+NHSXMv6ipDMt0LM+tgZoXB+5ZEHpxZQCRRXBCcFup9SLunmACCR9/uAzKBR9z9ZyGHdEjMrCeRWgNE1hV/IhnKYGZ/B0YTma1yHXAb8CzwD6ArkZl5L3L3hO0ErqMMo4k0aTiwAvhGjbb8hGNmxwNvAHOAquDwD4i04SfFvainDJeQJPfCzAYQ6YTOJPKf9X+4+0+C3+/xQDvgfeAyd98VSozpmCBERKRh6djEJCIiUVCCEBGRWilBiIhIrZQgRESkVkoQIiJSKyUIkTqYWaGZfSvsOETCogQhUrdCQAlC0pYShEjd7gJ6BesK/MLMbjKz94KJ4Krn7u9uZgvN7FEzW2Rmj5vZKWb2ZrCuwtDgvNvN7K9m9nZw/OvB8U5m9p/gGnPN7IQQyytyACUIkbrdAiwNJlN7FTicyNw+g4DBNSZI7E1kUrg+wXYpcDzwPSKje6sNIDKV8wjgR2bWOTj3leAaA4FZsS6USLSyGj5FRIjMd/U/RKY+AMgjkjBWAcvdfQ6Amc0DJrm7m9kcoHuN75jo7juAHWY2mUiyeQ94JJh47ll3V4KQhKEahEh0DLjT3QcFW293fzj4Wc15cqpq7Fdx4H/CDp7XxoMFiE4kMmPno2Z2RQxiF2kUJQiRum0D2gTvXwG+Eqw/gJmVmFnHQ/y+c4J1iIuITPD3npl1A9a5+0PAn4Bjmyd0kaZTE5NIHdx9Y9DZPBd4CXgCeDsy0zSVwGXAvkP4ytlEpnJuD/zU3Veb2ZXATWa2J/hO1SAkYWg2V5E4MLPbgUp3vyfsWESipSYmERGplWoQIiJSK9UgRESkVkoQIiJSKyUIERGplRKEiIjUSglCRERqpQQhIiK1+v+VeNn3EtrnogAAAABJRU5ErkJggg==\n",
      "text/plain": [
       "<Figure size 432x288 with 1 Axes>"
      ]
     },
     "metadata": {
      "needs_background": "light"
     },
     "output_type": "display_data"
    }
   ],
   "source": [
    "# programme de simulation de décroissance radioactive\n",
    "# par le jet de dés\n",
    "# lignes de code sous licence creative commun CC BY-NC-SA \n",
    "# BY Alexis Dendiével\n",
    "\n",
    "%matplotlib inline\n",
    "\n",
    "# importations\n",
    "import matplotlib.pyplot as plt\n",
    "from random import randint\n",
    "\n",
    "# entrée du nombre d'atomes radioactifs pour la simulation\n",
    "n = int(input(\"pour combien d'atomes radioactifs voulez-vous faire la simulation? : \"))\n",
    "\n",
    "# initialisation des données\n",
    "nombrelance = 0\n",
    "temps = [0]\n",
    "radioactifs = [n]\n",
    "        \n",
    "# coeur du programme\n",
    "while n > 0:\n",
    "        desintegration = 0\n",
    "        for i in range(n):\n",
    "            tirage = randint(1,6)\n",
    "            if tirage == 6:\n",
    "                desintegration = desintegration + 1\n",
    "        n = n - desintegration\n",
    "        nombrelance = nombrelance + 1\n",
    "        temps.append(nombrelance)\n",
    "        radioactifs.append(n)\n",
    "        \n",
    "# affichage\n",
    "plt.plot(temps, radioactifs)\n",
    "plt.grid()\n",
    "plt.xlabel(\"temps\")\n",
    "plt.ylabel(\"nombre d'atomes radioactifs\")\n",
    "plt.show()\n",
    "plt.close()"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {},
   "outputs": [],
   "source": []
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {},
   "outputs": [],
   "source": []
  }
 ],
 "metadata": {
  "kernelspec": {
   "display_name": "Python 3",
   "language": "python",
   "name": "python3"
  },
  "language_info": {
   "codemirror_mode": {
    "name": "ipython",
    "version": 3
   },
   "file_extension": ".py",
   "mimetype": "text/x-python",
   "name": "python",
   "nbconvert_exporter": "python",
   "pygments_lexer": "ipython3",
   "version": "3.6.9"
  }
 },
 "nbformat": 4,
 "nbformat_minor": 4
}