Computer Science Fundamentals (CS153 2003S)
[Skip to Body]
Primary:
[Front Door]
[Current]
[Glance]

[EC]
[Honesty]
[Instructions]
[Links]
[Search]
[Syllabus]
Groupings:
[EBoards]
[Examples]
[Exams]
[Handouts]
[Homework]
[Labs]
[Lab Writeups]
[Outlines]
[Readings]
[Reference]
ECA:
[About]
[Grades]
[Quizzes]
[Submit Work]
[Change Password]
[Reset Password]
Misc:
[Experiments in Java]
[Scheme Reference]
[Scheme Report]
[CS153 2002S (Walker)]
[CS151 2003S (Rebelsky)]
[CS152 2000F (Rebelsky)]
[SamR]
Summary: This lab provides practice with simple userdefined procedures.
You may want to glance over the corresponding reading before beginning this lab.
snoc
Start DrScheme and make sure that you're in full Scheme mode.
Copy the frac
procedure from
the reading on procedures
and make sure that it works as advertised.
;;; Procedure: ;;; frac ;;; Parameters: ;;; val, a number ;;; Purpose: ;;; Express val as a fraction. ;;; Procedues: ;;; rat, a rational number. ;;; Preconditions: ;;; val cannot be complex. ;;; Postconditions: ;;; rat is exact. ;;; rat is approximately equal to val (within some unknown level ;;; of accuracy). ;;; rat is the ratio of two integers. (define frac (lambda (val) (/ (inexact>exact (numerator val)) (inexact>exact (denominator val)))))
Write a Scheme procedure (addtwo a)
that returns the sum
a+2.
a. Define a Scheme procedure, (feet>meters ft)
that takes one argument, a real number representing a length measured in
feet, and returns the number that represents the same length as measured
in meters. Note that one foot is equal to exactly 761/2500 meters.
b. Use this procedure to determine the number of meters in one mile (5280 feet).
a. Define a procedure, (poly1 x)
, that corresponds to the
polynomial 5x^{2}  8x + 2.
b. Test your procedure on the values 0, 1, 2, 3, 4.
a. Write a procedure (quadraticroot a b c)
that finds one
root of a quadratic equation
ax^{2} + bx + c = 0
using the quadratic formula. Use it to find a root of the above
equation. (I don't care which root you find.)
b. Test your procedure by computing
(quadraticroot 1 5 6) (quadraticroot 2 10 12) (quadraticroot 1 4 4).
c. Use algebra to check these answers.
d. What are (quadraticroot 1 0 1)
and
(quadraticroot 1 0 2)
?
Write a procedure, (swapfirsttwo lst)
, that,
given a list as an
argument, creates a new list that interchanges the first two elements of
the original list, leaving the rest of the list unchanged. Thus,
> (swapfirsttwo (list 'a 'b 'c 'd 'e))
(b a c d e)
In this problem, assume that the list given to swapfirsttwo
has at least two elements; do not worry about the possibility that
swapfirsttwo
might be applied to numbers, symbols,
empty lists, or lists with only one element.
The volume of a sphere of radius r is 4/3 times pi times r^{3}.
The circumference of a sphere of radius r is 2 times pi times r.
a. Write a procedure named (spherevolume r)
that
takes as its argument the radius of a sphere (in, say, centimeters)
and returns its volume (in, say, cubic centimeters).
b. Write a procedure named (spherecirc>radius circ)
,
which converts the circumference of a sphere to its radius.
c. Use these procedures to compute the volume of a standard softball, which has a circumference of 12 inches.
d. Use these procedures to compute the volume of a Chicagostyle softball, which has a circumference of 16 inches.
e. Compute the volumes of each kind of softball using centimeters instead of inches.
snoc
Define a procedure snoc
(``cons
backwards'')
that takes two arguments, of which the second should be a list.
snoc
should return a list just like its second argument,
except that the first argument has been added at the right end:
> (snoc 'alpha (list 'beta 'gamma 'delta)) (beta gamma delta alpha) > (snoc 1 (list 2 3 4 5 6)) (2 3 4 5 6 1) > (snoc 'first null) (first)
Hint: There are at least two ways to define this procedure. One uses calls to
reverse
and
cons
; the other uses calls to
append
and
list
.
Write a procedure, (rotate lst)
, that,
given a nonempty list of elements (e.g., (a b c)
),
creates a new list with the original first element moved to the end .
For example,
> (rotate (list 'a 'b 'c)) (b c a) > (rotate (list 1 2)) (2 1) > (rotate (rotate '(first second third fourth))) (third fourth first second)
In a figureskating competition, judges have observed the competitors' performances and awarded three separate scores to each competitor: one for accuracy, one for style, and one for the difficulty of the chosen routine. Each score is in the range from 0 to 10. The rules of the competition specify that a competitor's three scores are to be combined into a weighted average, in which accuracy counts three times as much as difficulty and style counts twice as much as difficulty. The overall result should be a single number in the range from 0 to 10.
a. Write a comment in which you describe the nature and purpose of a procedure that takes three arguments  a competitor's accuracy, style, and difficulty scores  and returns their weighted average.
b. Define the procedure that you have described.
c. Test your procedure, looking for cases in which the weighted average is computed incorrectly. (If you find any, make corrections in your definition.)
If you find that you have extra time, you might want to attempt the following tasks:
snoc
(exercise 8) in two different ways. (You
should have already written it one way; find another way.)
(roundtonplaces val p)
,
which rounds val to p places after the decimal point.
Tuesday, 5 September 2000 [Samuel A. Rebelsky]
http://www.math.grin.edu/~walker/courses/151.fa00/labprocedures.html
(by Henry Walker; dated 1 September 2000)
http://www.math.grin.edu/~stone/courses/scheme/spring2000/proceduredefinitions.xhtml
(by John Stone; dated 17 March 2000)
Wednesday, 31 January 2001 [Samuel A. Rebelsky]
frac
procedure from the
reading).
Sunday, 4 February 2001 [Samuel A. Rebelsky]
add2
to addtwo
).
http://www.cs.grinnell.edu/~rebelsky/Courses/CS151/2001S/Labs/procedures.html
.
Tuesday, 10 September 2002 [Samuel A. Rebelsky]
for those who finish earlysection.
Friday, 13 September 2002 [Samuel A. Rebelsky]
http://www.cs.grinnell.edu/~rebelsky/Courses/CS151/2002F/Labs/procedures.html
.
Friday, 24 January 2003 [Samuel A. Rebelsky]
frac
(so that students don't need to
visit the reading to find it).
http://www.cs.grinnell.edu/~rebelsky/Courses/CS153/2003S/Labs/procedures.html
.
[Skip to Body]
Primary:
[Front Door]
[Current]
[Glance]

[EC]
[Honesty]
[Instructions]
[Links]
[Search]
[Syllabus]
Groupings:
[EBoards]
[Examples]
[Exams]
[Handouts]
[Homework]
[Labs]
[Lab Writeups]
[Outlines]
[Readings]
[Reference]
ECA:
[About]
[Grades]
[Quizzes]
[Submit Work]
[Change Password]
[Reset Password]
Misc:
[Experiments in Java]
[Scheme Reference]
[Scheme Report]
[CS153 2002S (Walker)]
[CS151 2003S (Rebelsky)]
[CS152 2000F (Rebelsky)]
[SamR]
Disclaimer:
I usually create these pages on the fly
, which means that I rarely
proofread them and they may contain bad grammar and incorrect details.
It also means that I tend to update them regularly (see the history for
more details). Feel free to contact me with any suggestions for changes.
This document was generated by
Siteweaver on Tue May 6 09:19:58 2003.
The source to the document was last modified on Fri Jan 24 09:20:30 2003.
This document may be found at http://www.cs.grinnell.edu/~rebelsky/Courses/CS153/2003S/Labs/procedures.html
.
You may wish to validate this document's HTML ; ; Check with Bobby
Samuel A. Rebelsky, rebelsky@grinnell.edu