Turvey for Related Rates
Back in 1953, Roger Price invented a minor art form called the Droodle, which he described as "a borkley-looking sort of drawing that doesn't make any sense until you know the correct title." In 1985, Games Magazine took the Droodle one step further and created the Turvey. Turvies have one explanation right-side-up and an entirely different one turned topsy-turvey (when standing on your head – or turning the paper upside down, if you prefer).
Here is the title right-side-up:
"__ __ __ __ __ __ - __ __ __ __ __ __ __ __ __ __ __ ."
5 2 6 3 13 4 7 5 2
Here is the title upside-down:
"__ __ __ __ __ __ __ __ __ , __ __ __ __ __ __ __ __ __ __ __ __ __
8 12 6 11 7 9 6 10 8 10 6 3 9 10 1
__ __ __ __ __ ."
8 7 14 6
To determine the titles to this turvey, solve the 14 Related Rates problems. Then replace each numbered blank with the letter corresponding to the answer for that problem. The unnumbered blanks are all vowels. You should be able to determine both titles.
1-2. A certain calculus student hit Mr. Leacher in the head with a snowball. If the
snowball is melting at the rate of 10 cubic feet per minute, at what rate is the radius
changing when the snowball is 1 foot in radius (Problem #1)? At what rate is the
radius changing when the snowball is 2 feet in radius (Problem #2)?
Answers should be expressed in terms of feet per minute.
3-4. A baseball diamond is 90 feet square (NOT 90 square feet!). Coach Jack Handley
runs from first base to second base at 25 feet per second. How fast is he moving
away from home plate when he is 30 feet from first base (Problem #3)? How fast is
he moving away from home plate when he is 45 feet from first base (Problem #4)?
Answers should be expressed in terms of feet per second.
5. Water flows at 8 cubic feet per minute into a cylinder with radius 4 feet. How fast is
the water level rising when the water is 2 feet high?
Answer should be expressed in terms of feet per minute.
6-7. The Monticello High School swimming pool is an inverted cone with height 20
meters and radius 5 meters. It is being filled by Mr. Lundin with a hose which
pumps in water at the rate of 3 cubic meters per minute.
When the water level is 2 meters, how fast is the water level rising (Problem #6)?
How fast is the radius changing at this moment (Problem #7)?
Answers should be expressed in terms of meters per minute.
8-9. A stone is dropped into Sherando Lake, causing circular ripples whose radii increase
by 2 meters/second. How fast is the disturbed area growing when the outer ripple
has radius 5 meters (Problem #8)? How fast is the radius increasing at that moment
(Problem #9)?
Answers should be expressed in terms of square meters per second (#8) and meters
per second (#9).
10-11. A fish is being reeled in at a rate of 2 meters / second (that is, the fishing line is
being shortened by 2 m/s) by a fisherwoman at Mill brook. If the fisherwoman is
sitting on the dock 30 meters above the water, how fast is the fish moving through
the water when the line is 50 meters long (Problem #10)? How fast is the fish
moving when the line is only 31 meters (Problem #11)?
Answers should be expressed in terms of meters per second.
12. A student at James Wood was painting the high school and standing at the top of a
25-foot ladder. She was horrified to discover that the ladder began sliding away
from the base of the school at a constant rate of 2 feet per second. At what rate was
the top of the ladder carrying her toward the ground when the base of the ladder was
17 feet away from the school?
Answers should be expressed in terms of feet per second.
13. A spherical balloon was losing air at the rate of 5 cubic inches per second. At what
rate is the radius of the balloon decreasing when the radius equals 5 inches?
Answers should be expressed in terms of inches per second.
14. Oil spills into Lake Winchester in a circular pattern. If the radius of the circle
increases at a constant rate of 3 feet per minute, how fast is the area of the spill
increasing at the end of 10 minutes?
Answers should be expressed in terms of feet per minute.
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