A:We know that kwox causes swoq, and we know that swoq causes not kwoz. B:Would an individual is not kwoz if not kwox instead of kwox? Answer: contrast
A:We know that kwox and muvy causes swoq. kwox and muvy and swoq causes kwoz. We observed an individual is muvy. B:Would an individual is kwoz if not kwox instead of kwox? Answer: contrast
A:The overall probability of jyka is 36%. For those who are not jyka, the probability of lirg is 63%. For those who are jyka, the probability of lirg is 12%. B:Is lirg less likely than not lirg overall? Answer: paperback
A:For those who are not jyka, the probability of kwox is 70%. For those who are jyka, the probability of kwox is 69%. B:For those who are jyka, would it be more likely to see kwox if the individual was not jyka? Answer: paperback
A:For those who are not zuph, the probability of uvzi is 23%. For those who are zuph, the probability of uvzi is 58%. B:Will zuph decrease the chance of uvzi? Answer: contrast
A:The overall probability of college degree or higher is 59%. The probability of high school degree or lower and high salary is 31%. The probability of college degree or higher and high salary is 6%. B:Is the chance of high salary larger when observing college degree or higher? Answer: contrast
A:Method 1: We look at how kwox correlates with kwoz case by case according to muvy. Method 2: We look directly at how kwox correlates with kwoz in general. B:To understand how kwox affects kwoz, is it more correct to use the Method 1 than Method 2? Answer: paperback
A:We know that cwoi and gwet causes yomx. cwoi and yomx causes xevu. We observed an individual is not gwet and an individual is not cwoi. B:Would an individual is not xevu if not yomx instead of yomx? Answer: paperback
A:The overall probability of yomx is 53%. For those who are not yomx, the probability of xevu is 12%. For those who are yomx, the probability of xevu is 70%. B:Is xevu more likely than not xevu overall? Answer:
contrast