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     "text": [
      "The weight of a car in newton,W= 13734.0 N\n",
      "The mass of the car in slugs,m= 95.9 slugs\n",
      "The weight of the car in pounds,W= 3089.0 lb\n",
      "The mass of the car in lbm,m= 3086.0 lbm\n"
     ]
    }
   ],
   "source": [
    "# CHAPTER 1:INTRODUCTION TO FLUID STATICS\n",
    "# SAMPLE PROBLEM 1/1,PAGE NUMBER:19\n",
    "\n",
    "import math\n",
    "\n",
    "#Variable Declaration\n",
    "m=1400; # Mass of car in kg\n",
    "\n",
    "#Calculation\n",
    "g=9.81; # The acceleration due to gravity in m/s^2\n",
    "W_1=m*g;# Weight in N\n",
    "m_1=m/14.594;# Mass of the car in slugs (1slug=14.594kg)\n",
    "g=32.2; # The acceleration due to gravity in ft/s^2\n",
    "W_2=m_1*g;# Weight in pounds (lb)\n",
    "m_2=m/0.45359; #Mass of the car in lbm\n",
    "print \"The weight of a car in newton,W=\",round(W_1,0),\"N\"\n",
    "print \"The mass of the car in slugs,m=\",round(m_1,1),\"slugs\"\n",
    "print \"The weight of the car in pounds,W=\",round(W_2,0),\"lb\"\n",
    "print \"The mass of the car in lbm,m=\",round(m_2,0),\"lbm\"\n",
    "\n"
   ]
  }
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