Statistics 2
To oversimplify, random selection is useful to _______, while random assignment is useful to _______.
"Assure that we can generalize to the population from which we sampled"; "Assure that differences between groups are not due to extraneous variables."
The most important characteristics behind using different scales is to keep in mind the numbers themselves. (T or F)
False. What is important is the underlying variable that we hope that we are measuring.
interval scale
The values of data measured on this scale can be rank ordered. In addition, the differences between two adjacent ranks are equal.
constant
a number that does not change in value in a given situation
nominal scale
a set of number assigned that frequently have no meaning other than as a label that distinguishes the variables. Data on this scale is measured by determining the category to which they belong.
scales of measurement
characteristics of relations among numbers assigned to objects
quantitative variables can be either
continuous or discrete
response variable
dependent variable, is the variable whose variation we are interested in. this is the variable that sually goes in the y axis of a graph
all categorical variable types are
discrete
what is the practical distinction between discrete and continuous variables
discrete variables take on only a few different values, but continuous variables can take on any value between the lowest and highest score
parameters are represented using
greek letters
ratio scale
has a true zero point. The values of data measured on this scale can be rank ordered and have meaningful differences between scale points.
what is the difference between an interval and a ratio scale
in the latter we can meaningfully speak of the ratio between numbers. but we will generally apply the same statistical procedures to both kinds of data
explanatory variable
independent variable, the variable that we believe is influencing the variation of the response variable. this is the variable that usually goes in the x axis of a graph
name the four common scales of measurement
nominal, ordinal, interval, ratio
ordinal scale
orders people, objects, or events along some continuum. The values of data measured on this scale can be rank ordered.
statistics are represented by
roman letters
rules of summation
sigma(x-y)=sigmax-sigmay; sigmacx=csigmax; sigma(x+c)=sigmax+Nc (N=number of items being summed
sigma
symbol indicating summation
random assignment
the allocation or assignment of participants to groups by a random process
measurement
the assignment of numbers to objects
true zero point
the point that corresponds to the absence of the thing being measured. 0 K
discrete variables
the variable can take on only a relatively few possible values
dependent variables
the variables being measured; the data or score
what is the independent variable
this is the variable that we are trying to study as opposed to the score that we obtain
independent variables
those variables controlled by the experimenter
continuous variables
variable could assume any value between the lowest and highest points on the scale.
quantitative variables
variables characterized by a numerical value; interval: numerical values in which the intervals between the values are assumed to be the same, ratio: numberical values with a meaningful zero point. zero represents the absence of the variable
categorical variables
aka qualitative variables; variables characterized as a set of categories. can be: nominal 2 or more categories. order does not matter; dichotomous: only 2 categories or levels order does not matter these are also nominal variables. ordinal: two or more categories, order matters categories can be ordered or ranked
