Problem-Solving Techniques
When you start to solve a problem in science or engineering you can go about it in several ways. In some cases you have no choice: There may be only one practical method of doing the job. Other times, there may be several ways to attack the problem. You may try one, find it to be unfruitful, and then work on another approach. You will see both these methods of attack in the case histories we present in the next chapter.
Here are some of the techniques of scientific problem solving that we will be discussing:
- Applying basic principles directly. In answering the questions “How do we calculate a satellite’s orbit?” and “What color should a satellite be?” the successful procedure was to begin with basic known concepts and use them in a new field.
- Adapting known devices. To answer the question “How can we make optical measurements on a satellite?” the story was somewhat different: Devices that already had been developed—mirrors, telescopes, and cathode ray tubes—were utilized in a new and different way.
- Developing entirely new equipment. Another question—“How do we keep solar cell power plants working in space?”—deals with an entirely new area of investigation; it could only be answered by perfecting some entirely new techniques.
- Experimentation. Sometimes there is no definite answer to a problem. In the case of “Would time delay be a problem in using a synchronous satellite?” investigation is still going on. Our report tells of one set of experiments that helped add to our information about this problem—the final answer, if there is one, must come later. But, as with many problems, experimentation continues.
- “Detective work.” Our sixth problem is really a unique one—and, for want of a better way to describe it, we use this title. It tells how the problem of “How can we repair an orbiting satellite?”—something never even attempted before—was ingeniously solved by means of scientific deduction hundreds of miles away from the problem itself.
CASE HISTORY NO. 1
How Do We Calculate a Satellite’s Orbit?
Franz T. Geyling
Mechanics Specialist—Head, Analytic and Aerospace Mechanics Department