{
 "cells": [
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "\n",
    "# Subplots\n",
    "\n",
    "Show multiple subplots in matplotlib.\n"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 1,
   "metadata": {
    "collapsed": false,
    "jupyter": {
     "outputs_hidden": false
    }
   },
   "outputs": [
    {
     "data": {
      "image/png": "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",
      "text/plain": [
       "<Figure size 640x480 with 4 Axes>"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    }
   ],
   "source": [
    "import matplotlib.pyplot as plt\n",
    "\n",
    "fig = plt.figure()\n",
    "fig.subplots_adjust(bottom=0.025, left=0.025, top=0.975, right=0.975)\n",
    "\n",
    "plt.subplot(2, 1, 1)\n",
    "plt.xticks([]), plt.yticks([])\n",
    "\n",
    "plt.subplot(2, 3, 4)\n",
    "plt.xticks([])\n",
    "plt.yticks([])\n",
    "\n",
    "plt.subplot(2, 3, 5)\n",
    "plt.xticks([])\n",
    "plt.yticks([])\n",
    "\n",
    "plt.subplot(2, 3, 6)\n",
    "plt.xticks([])\n",
    "plt.yticks([])\n",
    "\n",
    "plt.show()"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {},
   "outputs": [],
   "source": []
  }
 ],
 "metadata": {
  "kernelspec": {
   "display_name": "Python 3 (ipykernel)",
   "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": "3.12.11"
  }
 },
 "nbformat": 4,
 "nbformat_minor": 4
}