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CHAPTER 3- DESIGNING EXPERIMENTS
Response Variable-* A variable that measures an outcome or result of a study
Explanatory Variable-* A variable that we think explains or causes changes in the response variable
Subjects-* Individuals in an experiment
Treatment- * A specific condition applied to all individuals in an experiment
Experiment vs. Observational Study (again!)* Experiment = treatment applied to all subjects
* Obs. Study = no treatment imposed, just observe subjects and record data
Example 1: Go back to our activity 3.1 with the coin and the blindfold. Identify:
Subjects:
Treatment:
Explanatory Variable:
Response Variable:
Experiment or Obs. Study:
Example 2: I want to test out a new plant food. So I take 20 plants, and give half the new plant food and half no food at all. All of the plants get the same amount of water and sunlight each day. After 30 days, I measure the height that the plant has grown, and also how many flowers it has on it. Subjects:
Treatment:
Explanatory Variable:
Response Variable:
Experiment or Obs. Study:
EXPERIMENTING BADLYLurking Variable- * A variable that has an important effect on the relationship among the variables in a study but is not included in the study (is not one of the expl. Variables)
Confounded- * Two variables are said to be confounded when their effects on a response variable cannot be separated from each other.
Examples & how to draw pictures of the variables
Let’s go over HW problems #1 - 4
Placebo-* A dummy treatment
* Example: sugar pill, “vitamin” water
Placebo effect-* When an individual reacts to the placebo
* The reaction can be positive or negative
* Example: feeling better because of sugar pill, claiming you are performing better because of “vitamin” water
Designing Experiments!
*drawing randomized comparative experiments
HW: p. 143 #6
a)Subjects = 22,000 physiciansExplanatory variable = medication (aspirin or placebo)
response variable = # of heart attacks
b)
Compare number of heart attacks
Aspirin every other day
Placebo every other day
11,000 male physicians
11,000 male physicians
22,000 male physicians
Try examples #1-5 in the notes
Logic of Experimental Design:
* Randomization produces groups of subjects that should be similar in all respects before we apply the treatments
* Comparative design ensures that influences other than the experimental treatments operate equally on all groups.
* Therefore differences in the response variable must be due to the effects of the treatments
CONTROL- the effects of lurking variables on the
response, by the comparing of 2 or more treatments
RANDOMIZATION- use impersonal chance to assign subjects to treatments (SRS)
REPLICATION- use enough subjects in each group to reduce chance variation in the results - repeat the experiment numerous times!
PRINCIPLES of Experimental Design:
Statistically Significant-- An observed effect so large that it would
rarely occur by chance
- Seeing similar results over and over again = significant results!
- can be from a large sample size or from repeating the experiment a lot