A:For those who are not xevo, the probability of gyzp is 33%. For those who are xevo, the probability of gyzp is 91%. B:Will xevo decrease the chance of gyzp? Answer: integrate
A:We know that yupt causes zupj. yupt or zupj causes muvq. B:Would an individual is muvq if not yupt instead of yupt? Answer: integrate
A:The overall probability of rainy season is 95%. For people in the dry season, the probability of wet ground is 43%. For in the rainy season, the probability of wet ground is 39%. B:Is wet ground less likely than dry ground overall? Answer: packing
A:Method 1: We look directly at how kwox correlates with kwoz in general. Method 2: We look at this correlation case by case according to swoq. B:To understand how kwox affects kwoz, is it more correct to use the Method 1 than Method 2? Answer: packing
A:The overall probability of xevo is 24%. The probability of not xevo and gyzp is 59%. The probability of xevo and gyzp is 6%. B:Is the chance of gyzp larger when observing xevo? Answer: integrate
A:Method 1: We look at how xevo correlates with gyzp case by case according to tijw. Method 2: We look directly at how xevo correlates with gyzp in general. B:To understand how xevo affects gyzp, is it more correct to use the Method 1 than Method 2? Answer: packing
A:The overall probability of kwox is 51%. The probability of not kwox and kwoz is 10%. The probability of kwox and kwoz is 34%. B:Is the chance of kwoz larger when observing kwox? Answer: packing
A:Method 1: We look at how yupt correlates with muvq case by case according to zupj. Method 2: We look directly at how yupt correlates with muvq in general. B:To understand how yupt affects muvq, is it more correct to use the Method 1 than Method 2? Answer: integrate
A:We know that swoy causes rixq. rixq causes not zuph. swoy and zuph causes xevu. We observed an individual is swoy. B:Would an individual is not xevu if rixq instead of not rixq? Answer:
packing