A:For normal weight people and without diabetes, the probability of long lifespan is 80%. For normal weight people and with diabetes, the probability of long lifespan is 50%. For obese people and without diabetes, the probability of long lifespan is 54%. For obese people and with diabetes, the probability of long lifespan is 22%. For normal weight people and nonsmokers, the probability of having diabetes is 14%. For normal weight people and smokers, the probability of having diabetes is 40%. For obese people and nonsmokers, the probability of having diabetes is 39%. For obese people and smokers, the probability of having diabetes is 69%. The overall probability of smoker is 17%. B:Does obesity negatively affect lifespan through diabetes? Answer: classroom
A:The overall probability of drinking coffee is 13%. The probability of not drinking coffee and dark room is 79%. The probability of drinking coffee and dark room is 7%. B:Is the chance of dark room larger when observing drinking coffee? Answer: cds
A:For those who are not yomx, the probability of gwet is 53%. For those who are yomx, the probability of gwet is 21%. For those who are not yomx and are not gwet, the probability of xevu is 46%. For those who are not yomx and are gwet, the probability of xevu is 32%. For those who are yomx and are not gwet, the probability of xevu is 39%. For those who are yomx and are gwet, the probability of xevu is 40%. The overall probability of yomx is 72%. B:Will yomx decrease the chance of xevu? Answer: cds
A:Method 1: We look directly at how having a sister correlates with infant mortality in general. Method 2: We look at this correlation case by case according to infant's birth weight. B:To understand how having a sister affects infant mortality, is it more correct to use the Method 1 than Method 2? Answer: classroom
A:For those who are not yupt, the probability of muvq is 46%. For those who are yupt, the probability of muvq is 43%. B:Will yupt decrease the chance of muvq? Answer: classroom
A:For patients who are young and pay a low hospital bill, the probability of thick lips is 99%. For patients who are young and pay a high hospital bill, the probability of thick lips is 78%. For patients who are old and pay a low hospital bill, the probability of thick lips is 27%. For patients who are old and pay a high hospital bill, the probability of thick lips is 5%. The overall probability of old age is 52%. B:Will high hospital bill increase the chance of thick lips? Answer: cds
A:The overall probability of attractive appearance is 48%. For people considered unattractive and are not famous, the probability of talent is 3%. For people considered unattractive and are famous, the probability of talent is 9%. For people considered attractive and are not famous, the probability of talent is 2%. For people considered attractive and are famous, the probability of talent is 6%. B:If we look at people who are famous, does the chance of talent increase when attractive appearance? Answer: cds
A:We know that kwox or muvy causes swoq. kwox and muvy and swoq causes kwoz. We observed an individual is not muvy. B:Would an individual is not kwoz if not kwox instead of kwox? Answer: classroom
A:The overall probability of intelligent parents is 14%. The probability of unintelligent parents and being lactose intolerant is 63%. The probability of intelligent parents and being lactose intolerant is 6%. B:Is the chance of being lactose intolerant smaller when observing intelligent parents? Answer:
classroom