Could you please translate this to english, if you did then i would most gladly help answer this question:)
Drifting friendship because it’s talking about how they are not talking as much
Cognitively speaking middle-aged adults are in their prime in many respects, as demonstrated by the Seattle longitudinal study of adult intelligence.
A longitudinal looked at (or longitudinal survey or panel a look at) is a research layout that entails repeated observations of identical variables (e.g., humans) over short or long periods of time. It is usually a sort of observational examination, despite the fact that it may also be dependent on a longitudinal randomized test.
Longitudinal research is regularly utilized in social-personality and scientific psychology, to observe rapid fluctuations in behaviors, mind, and feelings from second to moment or day after day; in developmental psychology, to observe developmental tendencies across the lifestyles span; and in sociology, to take a look at existence activities at some point of lifetimes or generations, and in consumer studies and political polling to look at consumer tendencies
Learn more about longitudinal here: brainly.com/question/15531840
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Answer: B. He should create a budget and start saving for a new car and house.
Explanation: In other to make his goals of buying a car and a house attainable, the first step John should take is to create a budget and start saving towards his goals. Once John has gotten a job that pays a known monthly, he can then draft a budget of how he intends to spend his monthly earning on his regular needs and how much he will set aside as saving towards his goal of buying a car and a house. This will enable him keep track of his spending while also ensuring that he keeps a portion of his earning.
<span>The poison distribution can be used to approximate the binomial distribution when the sample size n is large. This is then calculated using the formula
P(X) = e^-(np) *(np)^x
substituting X= 3
P(3)= e^-(430*1.5/100) * (430*1.5/100)^3
P(3)= 0.00158*268.3
P(3) = 0.42
P(3) = 0.0042%
P= probability of X occurring given n and p
n= sample size
p= true probability
e= exponential constant ~2.718
X=number of sample successes</span>
