1. Consider the statement <b>x = 54</b>. What is the type of the object to which the variable <b>x</b> refers? HINT: If you are not sure, you can check the type of a variable (e.g., x=54) by saying type(x). Note that if you use type(x) before entering x=54 in the console you will get an error because x does not yet have a value.
ANS. int
ANS. integer
ANS. Integer
2. Consider the statement <b>x = 54</b>. What is the value of the object to which the variable <b>x</b> refers?
ANS. 54
3. Consider the statement <b>y = 3.713</b>. What is the type of the object to which the variable <b>y</b> refers?
ANS. float
ANS. Float
4. Consider the statement <b>y = 3.713</b>. What is the value of the object to which the variable <b>y</b> refers?
ANS. 3.713
5. Consider the statement <b>z = 'my best friend'</b>. What is the type of the object to which the variable <b>z</b> refers?
ANS. str
ANS. string
ANS. String
6. Consider the statement <b>z = 'my best friend'</b>. What is the value of the object to which the variable <b>z</b> refers?
ANS. my best friend
ANS. "my best friend"
ANS. 'my best friend'
7. Write a statement that assigns the variable my_friend the value 'Betty Bop'.
ANS. my_friend = 'Betty Bop'
ANS. my_friend= 'Betty Bop'
ANS. my_friend ='Betty Bop'
ANS. my_friend='Betty Bop'
8. Suppose that you run the following <b>one-line program</b>. What happens? <p><b>print('hello')</b></p>
a. 'hello' appears on the screen
b. hello appears on the screen~
c. "hello" appears on the screen
d. an error occurs
9. Suppose that you run the following <b>one-line</b> program. What happens? <p><b>print(hello)</b></p>
a. 'hello' appears on the screen
b. hello appears on the screen
c. "hello" appears on the screen
d. an error occurs~
10. What does the expression <b>3 * (4 + 1)</b> evaluate to?
ANS. 15
11. What does the expression <b>3 * ('hi' + 'bye')</b> evaluate to?
ANS. hibyehibyehibye
ANS. 'hibyehibyehibye'
12. What is the value of <b>y</b> after the following set of statements executes?<b><p>y = 5</p><p>y = y * 3</p><p>y = y + 1</p></b>
ANS. 16
13. Assume that you have a variable <b>x</b> that has already been given a numeric value. Assume that you have put <b>import math</b> at the top of your program. Write a statement that sets the variable <b>y</b> to the sum of the sine of <b>x</b> and the cosine of <b>x</b>.
ANS. y**=**math.sin(x)**+**math.cos(x)
ANS. y**=**math.cos(x)**+**math.sin(x)
D. For the following questions perform experiments using a PyDev console in Eclipse (e.g., try using the same variable name on both sides of the assignment operator).
14. The same variable name can occur on both sides of the assignment operator (<b>=</b>)
a. true~
b. false
15. <b>int</b> is a valid Python variable name.
a. true~
b. false
16. Bobby decided to use int as a variable name and created the following code: <b><p>int = 2.5</p><p>print(int(int))</p></b> What happens when Bobby runs his code?
a. An error occurs because int is no longer the name of a function but the name of a float.~
b. 2 is printed.
c. 3 is printed.
d. An error occurs because int cannot be used as a variable name.
17. It is okay to use a variable before we give it an initial value.
a. true
b. false~
18. What keyword marks the beginning of a <b>function definition</b>?
ANS. def
19. What notation marks the <b>body</b> of the function (that is, how can we tell when one function ends and another starts)?
a. Indentation~
b. Curly braces ({})
c. Colon (:)
d. A new line or return
20. What is the name of the function that <b>prints</b> things (i.e., displays them on the console)?
ANS. print
ANS. print()
D. Watch the video: <a href="http://www.rose-hulman.edu/class/csse/csse120/VideoFiles/02.04-CallingFunctions/CallingFunctions.html" target=newtab><b>Calling Functions</b></a>
D. Consider the following function definition: <img src="data:image/png;base64,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"/>
21. What is the name of the function? HINT: There should be no parenthesis
ANS. f_to_c
22. How many parameters does the function have?
ANS. one
ANS. One
ANS. 1
23. Choose 2 reasons why functions are powerful.
a. They improve organization and allow code re-use.~
b. They take parameters and allow code re-use.
c. They do calculations and take parameters.
d. They can have comments and do calculation.
24. Choose the statement that correctly calls the <b>f_to_c</b> function.
a. <b>f_to_c 5</b>
b. <b>f_to_c</b>
c. <b>def f_to_c(5)</b>
d. <b>f_to_c(5)</b>~
25. What steps occur when <p><b>c = f_to_c(10.5)</b></p> is called (where the <b>f_to_c</b> function is as defined above)?
M. Step 1 -> Actual values are sent to function parameters
M. Step 2 -> Execution continues in the f_to_c function code
M. Step 3 -> The calculated value for celsius is returned
M. Step 4 -> The returned value is substituted where the function call occurred
M. -> None is returned
M. -> The value for celsius is printed
D. Watch the video: <a href="http://www.rose-hulman.edu/class/csse/csse120/VideoFiles/02.05-CodingToASpecification/CodingToASpecification.html" target=newtab><b>Coding to a Specification</b></a>.
26. The specification of a component has 3 most universal parts. What are those 3 parts?
a. What goes into the component, what comes out of the component, and the side effects of the component.~
b. What goes into the component, what comes out of the component, and the purpose of the component.
c. The purpose of the component, the amount of time it will take to run, and the number of parameters it needs.
d. The name of the component, the parameters of the component, and what comes out of the component.
27. A specification states <b>how</b> the component works.
a. true
b. false~
28. A specification states <b>what</b> the component does.
a. true~
b. false
D. Do this reading: <a href="http://www.rose-hulman.edu/class/csse/csse120/201530/Sessions/Session03/03b-Counted%20Loops/Handouts/CountedLoops.pdf" target=newtab><b>Counted Loops</b></a>
29. Choose the correct lines to make a loop that prints 'funny' 40,000 times.
M. Line 1->for k in range(40000):
M. Line 2-> print('funny')
M. ->for k in range(40001)
M. ->for k in range(n)
M. -> return 'funny'
M. -> print 'funny'
30. Choose the correct lines to make a loop that prints the cubes of the numbers from 0 to <b>m</b>, inclusive (where <b>m</b> is some integer bigger than 35). For example, if <b>m</b> were 37, then this loop should print: <p>42875</p><p>46656</p><p>50653</p> These are 35 cubed, 36 cubed, and 37 cubed.
M. Line 1->for i in range(m+1)
M. ->for i in range(m)
M. ->for i in range(0)
M. Line 2-> print(i**3)
M. -> print(35**3)
M. -> print(m**3)
D. Watch the video: <a href="http://www.rose-hulman.edu/class/csse/csse120/VideoFiles/03.1-ObjectOrientedProgramming/ObjectOrientedProgramming.html" target=newtab><b>Object Oriented Programming</b></a>
31. Four computer languages developed in the 1950s dominated early computing. One of them is <b>Lisp</b>. What is the name of another?
a. Procedural
b. C
c. ALGOL~
d. Assembly
32. This diagram <img 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tOvzL9O6g4dBztfd2MnX9JOBEPJoaMfMm6ONZP/5h1dSjJm1te9SGqjbqEuIY5M6rzvekDq3awPmAgxnFqoxaAFumiFGYkExPUHDpqZBf16oTXMPs2ur2sWau4+hKTCBgAWX3xPZ5anZOQ0GbiTvrCCRu76ZH2SraKuWkpS4s8vi0yV/yhU9TvGcp3TsKWqUAIVAZzXZmaBLXsN/6B7MBDT2c5/294uJFU5JeDQT+y0pZFPs2XnDwwdJeuhg8k023Bq4V94jhrERHYf7kQZjNu0s6SZPGzsgCYmQVCYwbRySmBVsElrtxkAdvCX5KmEq5YSzg9M1YiB0QjPtX0D41UsS0iN8+ctXWglvC6o8+dt3Y9DXeAChTYHpPJSAiUBdJHWbJWdqisZH0KtofC0walt0j0Q+lBMZM+RjtCZOniyHROJmNq3kXEwaeUop6S9jZ+JsycAPWKiSm3YaqUk3n8PRNRr5R9hJg1YNbZe79wvqSPgZGhJR3lEOsB03ntK4j63YlIz75aiBNhqZ+Vn5ekG0zO+MteWRvybU58ksQ2nVtckEDhgIrsOdQJK9h6lGyJgKJYadysXJc17Boycahs+xU7HaPS5Sy1Inkq4WimBXglJU4uy3/8+Jnv9bLNHY6uoj/PmDdWw6wg7X1eYfvGybh1JaPRMGyY1C9qVLErAs7/pCZf1/X8aGw70HhxW0kZhW72UQLskepYNTHSwDWzfJ/DfHLrpXVFrJCVFBcUHVl4qq7lD7uzQWd9LreMlJQUANAahF7NwuSlMFxdrte7t38PVk0mFKxi6J3DamAgQpiUZ6R01kOoSDvUIE2db7ZRAZpg+f7kFJY0eHF7J3dc8SpQMvIKTF6TJ3yVWCyVk7NU1zNE/tj/Y3s8Vjru9vxu0SEiGOUt7UoYTfMYO/GZN977D3LvY+QFVUxbKesKMBwV8DCtpa+X36nWpsRPGcGq19EID4uyZSPL+LpThxJSDnZiIX0x/Si/8Zb5sDbKesLSkxPo03hxmHz2lR+i1JaGwqSTp+x+6UoaTpi+2IKMvFbImUQItDCU3cSCprA8cqoWSAyfa9/HxNBrkbTBAZucQl2UbjAsLS444nBVg4iOLIF3TEdD/zP6vnvMIp8TSo1jb93eGAgZqAXaQ7eI3Wg6BzqR8Iv4tvZWll8/ZSy2ZCPA6YLgL/DuYhkrEeuiQDdulJAmKN+uh7jm59N0+xyBnyEySwHGfW5u7DyUlTYWsMZRACVFWEQJxKGDofIqkFkrK6aJi7YJC2flTaOjQQgl05mIrTlzg1hhKFP7ykMJ7e/KqTkqUG/ql7az9KlHm16w1mJKynhOQl0AogboDWrvQfOHEhW+NoQQaJcwPylTooVeQQCi59+CD/Sc6572knxjSIGtS6zU/twC6uJX4mL9wahwNtSZRUmkhJSoaKUHzGylB8xspQfMbKUHzGylB8xspQfMbKUHzGylB8xspQfMbKUHzGylB8xspQfMbKUHzGylB87t2UQJ7G70wCl1R20csrEWUoFW0mCmZtfwXzt4Kx/39v2YforFWazkZBOW0P5S9q1AJCYiSZzkvtqZegOtAgF6x7jj7EE0Z8CMng3B8KO06fUDVJwFRImRlP8hjH6J5g7fTCbVDSEm5hJQgJfxCSpASfiElSEkp7f0ufUa/LQkh+9hfRVBOSVZGNkTA53Zn0iFxCSkpJfZvcsBZz88tIHEllAAizDdaYOLulSd0goiElJQS51CkxJ8ncSWUcBY5sPISnSAiISWlxPnSNZQN5GsrZVEi/xseyr++oaFCSkoJ2iKcT3wlxhyGuEJKigqKOR9rifffw/sBDk0UUsLVic3X2EcDDAWGQkqOrLvCDoKV/K6LRgsp4QoKA+bjGsQw+/hODjsClMiXOmsnHqNXITohJQok39qAZix7FijZOP0kOwLEQHlDLy86ISWKBc0R9jHhmFOKgKHZSy8pRiElisUeBeE1tGFF2WhlhJSUKU4to8Si7P2yhZSUqfzcAiUfNmacELKPXkC8QkqUSb5XLO+yPnIsJiElPIr338M+OBwnL0ij84laSAmP4GiwDw7bM/ptkf+aviiFlPCrrF9ugfqIziF2ISX8yn6QJ98rXuSVIu7eL1tISbkk/6vIlfjsseYKKSmXOLd/RXzLRqGQkvLq99Tb5PhA7UN+Jrv2CCmpgEivmHmArfYIKamAsjKyRX/LRqGQkoqpNoy0ygspQfFLQJSkX/8bP06huifEJxcUFtHHVE0SECWRczdzdhhdOe88qua3PQRECRYk6nJSbfgW0vzVfunXpeiK2i12Vi2iBL++VznjNxrR/EZK0PxGStD8RkrQ/EZK0PxGStD8RkrQ/EZK0PxGStD8RkrQ/EZK0PxGStD8RkrQ/EZK0PxGStD8RkrQ/EZK0PxGStD8RkqUubhYi2NOBs31D9v1e7l5/ve8Hieu0EhJmf5xl8TAYXiLngHNaQc27xWy/3h7TjZ5v3mjATzNWdqTko558KgRJ67QSEmZnvm1OSWN/vQr8/hEk69om/11twknm7xHz+hj6zOYExSaFywzo/Qi/nnSkBNXaKSkTH+e0JPSi3zxsg4nzmu3cIdmZoGcoNCMlHClCiX3Hyoukw+caB88sb+tj7tDkOuKTV1JFQOZx31u07mvbyPj4OhZNmNn2Z252Iq9FOOMv3Tj5tr0HebuHeWw71gHdlLSViNYJ6x54nybrH9K/vvh0+0WLjctLNKavrj3wCCPlIOdSPzh44ZTFlna+gwZFOi6fJPx27d0fvDT7Prxq02dRrhAasgn/dPSWzJJSAlXqlDyMl9BWbJwuRklGTNguCtULo5BH1P6seFT+kL8z9u6FkM8dE2C60pDerh69HDzYc4l26cvtKpnNLJ5z6CAOHs7XzdKOnbLbj2IFxZqu0U4wT8NmmAPa25jFdDGOvjWPbqOm/GVeeNuwe4jHRsahxk7+09e0BuC1zObtrQI6dTXf8ynfYaP609JRntHDYKGESTlv6rTxW5YS/MgiMPmtbYM0JKOZqhFSriqHCVffN8DDnroJ3axs61jZttEz7ZL3teFJMFpvny9OZMT8lCSUY+e0kfcc9Sgtlb+TCrHRcVa+v19OtgG/Pdch0T2Het49ExbmFiyujulH/Nb+kck/jxXp4lJqNeYgWT2feo4vX6+UHjAbFGxNvwFFvXs/V8XyKbBuw93BGS37+8M069e19l1qBOT9PhZgzr6Mv7ILFLCVeUokR1H6RiDAd7dnIYaOw7t6uT/xfdmnDzEUBJAzoxbTcmse4RDG8syKfn9fy0AhW/WdOPEwfC/+niXavaGfdIXyo+CQtmZXrzKFEqds5dKao2MW7oQWbtNn4mAGxiNCJtsx44wltp7OQZ/TKaREq5UqXGgaufEiTPvNJn7bS/PUQ4DA1yMHHzqSMMy7+qSJOWU7DjQGSg5eKodJ/4yvy70ulv0CgJQrDzdwTZebh90D6G6hGfnyLZBVs3pRWT/VzLCsQdKDskYo0Fefbzd3i/iZunhTkljBoc7Mnl2H+40akZfgAO2s6FxhHcUXTIhJVypQsmDRwqOI7Q2dAxHmrp4TZhntWiF6ZBIB21pxM075aIEqi3oYB/7rQ0n/jxPB4oNU5eh3643Xrq2GxjKm1VbjKFt+/atrJ3xnpKRpLoh3pnaCcoSKDnIIpAf/q5LNrqS8SGkQgnkM3YQpTdq6GiHWV/3Aiya9RjhEelAlkVKuFKFEvk+DjQIWln49/bwYCLQDoAWDJuSdtZ+TCrHR063hebF6i2GnDj0klr2Gj5gOF0jyFueEmjBQCuEtHzlDY0SSj/upz0lqYYDhzqPcCbTSAlXqlCSm1eXE4e+A9UlzDe6PxMJmdQPWq9MjTNs7IDG3UKYVI5zcus16Bpq7u7JRM5fbnnofQUE/RpKGnXlRjMmCfziJb0B8pTAljTvGdjTbSgTAUNP+HWBrF+2YpMRMHT5uqxcAd+5/0Gj7uHQsiazSAlXlaPks3hzyiAOGgdQo9MOdD+eJqspAsfbQ/U/7UuL1T8ZQk8YGhNwxG/8Rbdel23oShmMd49wHDvLDlohJMj2t+shQ1wP16HQuYVOB9QaUG1B/MGjRh1sA+saREz6wjJpqwFUE2aDfcbOtCFLzf6mF+Rkj6CAt/7ShdKP7u7svXiVycrNRtAfhjUcOCG7jZB5R7eBcYTE3jdxi+H873t2sfOt3zXSKZguS2DlQCSO0JeocpRAA3NwhIutz2AAhbb30MO/yi56uL4nzrfWs/eT9PebvKD3tZvN4Bplzh9cygBQV8dhJi7DCFXy3rRTYu3l0aJXYG8PTzi7RUX0fR9oBsXO6WM4aFgri+HQRomc3u9/f9JFCzRoXEKd5e/PQRPHfaRzhz7+7W38bH3cv1jWA4orknTybCuHoMFtrYbbeHscPNX+23VdYcNI0s97ZWtjcio3UlKTJs1ShSYjY2oxezS2ckZK0PxGStD8RkrQ/EZK0PxGStD8RkrQ/EZK0PxGStD8RkrQ/EZK0PxGStD8RkrQ/EZK0PxGStD8RkrQ/EZK0PxGStD8RkrQ/EZKatjZD1qyD9G8wUs4GYTg2kUJ7G30wihBOeaz8exDNL5vIieDEGwfsbAWUSJA9/f/mn2Ixlqt5WQQlMVMybSEFM7eCseaRcnJizfpY6omCYiSh09z5q/eH71wqwAd89lP7EM0vu8GTgbheMMvZ+kDqj4JiBIhK/tBHvsQzRu8nU6oHUJKyiWkBCnhF1KClPALKUFK+IWUICX8QkqQEn4hJUgJv5ASpIRfSAlSUkqJMYcJB1kZ2XSIj5Irx+7N6LcF4nu/S6dD4hJSUkoHVl5ijsMU6025z/JJXAklgAg76caZLDpBREJKSolzKNZOPEbiZVFSVFAc77+HnQSckSQxCSkppSPrrrAPBXM0yqLkxOZr7DgYyxLxC8qG2Y7b2EcDigqIK6QE6iPSHGEMR/L9asQmpISr31Nvs48GGAoMhZQkL0hjB8HsBq+YhJQoUELIPvYBgdLl7pUn7AhQAkCwI+CU+PP08qITUqJA8gRAM5Y9C5TIk8R0iMQnpESxtsw+zT4mvIZaiV5SjEJKFAsKhinWm9iHRYlJC1fEQkrKlHwvtyyL/oghJWUKesWLvFLYR0ahmZE3EQspUSbO6Lu82aP4IhZSwiNy868si3I8Xl5ICY+gV1xWMxZ6v1Ar0flELaSEXynx59nHhzHUR3QOsQsp4Vd+bgHn5g4YDhqdXAuElJRL8r1isd6yUSikpLxiP0ci4ls2CoWUlFdwWMjxmdFvS23o/bKFlFRAiXFH4PiI+5aNQiEl5VLey9dJO087hCRE2iYNn7xG7R8IEbiQEn5tTb3gFrucfECmb2A8mYheuPVq5gM6h9iFlCgTlBn+U9cQLBR61vJfHj7NoXOLV0iJYkE5AaUFh4mQmRMSNns4jZnLDtpHfJOw+RhUSfSSYhRSwhWUDfJfeHOLnbX3VO/3h4t6ltMEWOFkcBrz7YZfzhYUFtFrEZeQkhJBeQClgtzpn5u006mgsC5BhPHdh62mJYRyMkPz5VDadXp1IhJSIhOUAVASQHnAOetQZkDJwYaD4/Tr0si5sZylQmb+kH79b3rVohDsam2nZO+pq0wXhjGUEw+ffsgGQolPXuzOfLeZ8YT45Jt3H9P/Q8MFO1l7KUn74zZc95yzC2XD1cxObAjK6a2pdpyGLXj+6v3Pcl7Q/09jBbtXGymBqxyudc4ZhfIASgX2ia+o8142XLHNlfnSNzF0gpJ2ntboThDsW+2iBK5suL7ZZxEMXRgoCdjnWxVDU2b+aj+5f7F8a+oFeiM0TbBXtYUSuJpXbDsJVzb75MF1D10YKAPYp1ktvnm33YT4kez/BfaamKiJo/uwP7WCEvYoO2O44pV3YVR32h9GITMncP6vxo3uw56InBK4duV/LQOucrjW2aezSr33VG+o1DjbMC0hRVNG92EfREtJ+vW/I+du5pwbuLLTr0vZp7B6XFBYd8MvA+U7QQmbjwm/EwQ7IEJKeEfZa8oaOroPm14BSjZs2HD79m0yXVRUtG7dupwcYZWZcF0qHGWH61h+lL2m/PDphwpH9/eeukrvhsAEG10BSnx8fBwcHMj0qlWrOnXq9OrVKzJb44JrMWnnac4oO3Rh4Nqtii6M6r6a2Sl6YRR7a8EhM39I+4O+DoUj2NwKUJKVldWoUaMbN27AtEQi2bFjB4lDibJr164jR46QWRBEUlJSTp48CUUOHapKqT7KXlPWiNF92NCKtUtiYmKioqJSU1NNTExI5Nq1axYWFuPGjfP09PTz84PI/fv3+/TpExcX5+vre/z4cZKtiqRwlB2u0cqNsteUt6bayXeChDO6D5tYMUoePXpkbGzcuXNnKDxIxNnZedmyZWQa0IESZc+ePaampiRSWFhIJtQuuNrkHxTynzpZxVH2mjJUi0k7neRH91dsO1njo/uwfRWjBBQdHQ2UkOmCggKYDgoKio2NHT9+vIGBQWJi4osXL2xsbFxdXQ8ePEiyqVdwhc1a/gv7aILVO8peU1Y4ug+NrZod3YctqzAlCQkJjo6OZPr169cdOnSAvs/58+fT0tJu3ryZn0+/q5KUlATN25UrV5JZtaiaR9lrykIb3YdtqjAlixcvtrODq5YW9HomT55Mpl++fFlcXAyNXNL3gTiUKCRJRUEXBq4n+QeFFq/3rupR9ppy+nWp/Oh+5NzN1f+IE2xNhSlZunQp+9xD+WFtbe3m5gZNV4g/f/4cmiy2trbDhw+3tLQ8d+4cnU8FHUq7rnCU/e7DVuzDKkofSuuhcHT/7sPqe1EZtqPClOTl5T179oyeea+3b9+mp6dfvHgRECGR27dvAx+5ublkttIS1Ch7TbnGR/dhIypMSfUIrhX5UXaviTPg2mIfwdpjaHglbPbgdIKgCk7aebqqR/fh3wuOErg+Fq8/xD4W7w/HXOjCCGeUvab88OmHs5YHcQ6OW+zynUer8Ntd8I8FRInGjbLXlKt5dB/+pVAogatBfpQdrhvhj7LXlE9e7O4/dTLniEUv3Kr20X34ZzVPicLXceFaqc4HhTTXO4/ayHeC1PsCM/ybmqREZKPsNeWqHt2H/1EzlADpCkfZ4cpg73+N+O+HjX+90ObMxdZPshtwkoTsZzlNFq/35hxSMrqvYicI1l7dlADd0NHnjLJDF0bh67jV7HsPGg2OcNYxCKurH1pHGlbPMDzqM9vXBXU42RQ645Zuxq2mnGD1W+ELzF4TE1V5gRnWW32UCHyU/em/9dv3CezYN+Dwr+0ePGp070Hj5Ru7UtKxnqMGcXIqtFOwk1OwMydYU1bv6D6ssZooUTjKDtQLZ5R93BxrSm/Ug0elutwrNxtR+rGnzrWGaShU/vdns9cF2iTp7Vvqemaz53k6MA2VlJ3vYLthrrf//uD+w8YkQ437UFoP+UecKjG6D+viUvLjrF8PrLykRgO/Cl/HFdQoe1GxdvOeAf6x9pz4i5d16+qHT5pvCdMXrrSg9CIuXWtOknJy69WVhmxOkcB0d2fPeoZh9QxCWlsG2fu5vHmjRfLUuKESV/gC8+L1h8o/ug8r4lKiRo+zWO/ilcDZPmGOskMVQ+lFLl3bjRMHd+zj6x7hABNnL7Wk9EamX6Up+e95PW290DVbDWD64eOG/f1dwFCoCLDNq3B0H5qG5XxsBVZRhZQMcf+OvVlCHmW/da8JJRkF9QsnDjZ3H2Lj5QYT5y4DJRG//6+EEh39kLXbZJSAXcMcwWRamFY4uk84UC5YWPazDdAWmeXA/dS66tYgSqAMAEoUliWte/v7x/aHCeWUfBziBCbTwrRKlBDNG7ydc45VtwbVOK9e12lgNCJkEveZyGf/1oea6MuVpjBNKPnjBn3H4GV+3XoGI9iUuIQKlBI11DhEJzZf47Q61WWNaL2CocCoZxTxb049dvCzJeaUdAz0XGAa+IDy5vQFulP2190mWpJRP2zXJ7OOQc4uoYKrcdTWeq0eCb8nnHlXt3H38K6OvvuPt4feLHR6Jy+0ovRj5n1Ll3x5L3WamAQ7jXDJ+qfhmfRWhgO9tQ3GbthBsx403r6p2Yhb9z64eUe3qEgQfRx19oSrTcJ/dhXaHH19h2hLwnVNghp2DWlrHchpz6Yc7NSsR0izHiM62/lD78Z6qNu6n+myBHrIHWyHNzEN7+frAv1qZpEasfpH1apZQh6hJ4aWLJzyjFtNi4sVFAlQJf1xowWpmKDTm/+qZJvzXtS9+mdzaMowkep3VY3Q14iEfLdPQ121d/tqUPjkgFpcHU8O1LjwKSRVXE1PIQlE+ERjRV2tTzQKR/h0dDldA09HC034poUS19ibFsIUvrXFscJRdih3q+mtLSEL3wAFQwla82+ACl/4Njln32vgbXKNkPBH99Vu9Y6yqyLYGk0SfuWGPhDVK9gmzRNUxvjFrOoUbJmmCr++V22C7dNspeGXPKtesIliEH4VuEoFGyoSadzovoZ9YVxMgiIaf61A7YKNFqHwl0/UK9h00UpQo/s1PsquimAHRC78RTbVBftQK7QVf91RBcGe1BZV8+i+0EbZVRHsT+0SNALwV6crKtir2qib+Av2FRHsW+2VwtH9yLmxlRvdV/g6rnBG2VUR7F5tl+qj+xoxyq6KYCdRstH9Db+clX/EKWGzh/JOUPp1KZQ9nKWgfKr+B4WqVLCrKFrQdFA4uq/wBWaFr+NCmaTK67iCFVLCFe/ovoaOsqsipESxrmY+kH/EKWTmBOCD00SFLgyUQBrdheEVUqJMCl9gZlu9r+MKVkgJv7amXgjyXj3MeTlj4EPjRtlVEVJSLn3umsz+qqAmjrKrIqSkXOJ8wJKO1hohJeUSUoLiF1KC4hdSguIXUoLiVzkpSU1NDQwMvHz5Mj3/7l1SUlJiYiI9o7FCSsqlclIyY8YMiqLMzc3p+Xfv/Pz8fHx86BmNFVJSLpWTkilTpgwYMKB9+/Zr1qwhkYiIiNDQUDINysjI+Pnnnw8fPvz27Vs6pAlCSsqlclIyfvz4kSNHrl+/vkmTJgUFBRBhUzJnzpx27dq5urqamZn16tXr4cOHJC58ISXlUjkpmTBhgre3N0y0atUKmICJ8PBwQsnp06ehMrp0SfaNvDdv3piamgYEBMC0RggpKZfKT4m7uztMbNu2DZh4/fp1TEwMoSQ2NrZfv37vc8kErdqWLVsCLvS8sIWUlEvlp2TIkCFk2sTEZPr06dCeDQkJgVno+wwbNowkgQAjqJUKCwvpeWELKSmlx3dyDqy8dGLztaKCYjr0Xsop+T31Nix140wWm5Jff/21WbNm9vb2UVFRMPvpp58aGhqSJBDMQuuEnhG8kJISARmLvFIIBwkh+/JzZc1PIiWUbJx+kgSnWG8KDYpwcHCgE9698/f3h3onOjoapjMzM+vUqQNFy/Xr17dv366jowPFCckmfCElJTqy7grDATgl/jydUDYl53ZnsuN+dtHTpk2j0969y8rKGjhwINMrPn78eJ8+fczNzS0tLTdu3EiCGiGkpERnkjPYpxzKhqwM+puqCimBsme2Y6kfTt0y+zRJUiLSQ9YsISUlgiqGc9YTYw6TJIWUQGHDDoIZqkQmpKSUOMUJ+MqxexCXpwTauVDYsIPQQHm/DhEKKeEq3n8P+9wDH1CzyFOyduIxdgSIyX2WT9YgPiElXN298oR9+sHQMeZQIuv0smbB0PKllxejkBIFki8nZvTbwo5wyhtozXDGV0QmpESBoO7gtDmUm7RdRCykRLEOrLzEQaEsL4tMpZcRr5ASxZIfCynLYu39soWUlCmoRzhAyJs9PitiISXKlBCyj4MF29CkFXHvly2kRJmgNuGQwTb0kOl8YhdSwqPkBWkcOIihMyzu3i9bSAmPoE7hDJYQ3ziTReeoBUJK+AU1CweRtROP0Wm1Q0gJv6BmYZ5OAk+x3vT4jvi/bMMWUlIusXvFtaT3yxZSUl6Rmzuiv2WjUEhJeUUeKDm3O5Oer01CSiqg2okICClB8QspQfELKUHxCylB8QspQfELKUHx6d27/wP86CiKJ1Z/owAAAABJRU5ErkJggg=="/> is part of a:
a. Poem called <i>Beowulf</i>
b. Rocket ship
c. Garbage can
d. Flowchart~
33. <b>Procedural decomposition</b> is:
a. The process by which leftovers become fertilizer for gardens.
b. What happens to mummies when they are left out in the open air.
c. How great ideas become hollow ones.
d. The process of breaking a problem into a sequence of subproblems, with each subproblem given a procedure to solve it, and then breaking those subproblems into sub-subproblems, with each sub-subproblem given a procedure to solve it, and so forth until the problem is reduced to procedures of manageable size.~
34. The first object-oriented (OO) language was (in some historians' view) SIMULA, but the most influential of the early OO languages was:
a. Smalltalk~
b. Bigmouth
c. Farsight
d. Giggles
35. Most of the widely-used languages developed since 1990 have been <b>object oriented</b> languages.
a. true~
b. false
36. The <b>procedural</b> programming paradigm focuses on:
a. Nouns
b. Verbs~
c. Adjectives
37. The <b>object-oriented</b> programming paradigm focuses on:
a. Nouns~
b. Verbs
c. Adjectives
38. Today's software engineer typically uses both the procedural and object-oriented paradigms--there is a place for each.
a. true~
b. false
39. Python supports both a procedural and an object-oriented notation
a. true~
b. false
D. Watch the video: <a href="http://www.rose-hulman.edu/class/csse/csse120/VideoFiles/03.3-UsingObjectsInPython/Session03-UsingObjectsInPython.html" target=newtab><b>Objects and Classes--Using Objects</b></a>
40. What trick to we use in Eclipse to figure out what <b>instance variables</b> and <b>methods</b> an object has?
a. CTRL + Space
b. Dot trick~
c. CTRL + s
d. F1
41. What trick do we use in Eclipse to figure out what <b>arguments</b> a constructor or method takes?
a. CTRL + Space~
b. Dot trick
c. CTRL + s
d. F1