Using R Studio :
Suppose X ∼ Possion(2). Report the probability that P (1 < X ≤ 5). Show the code you used to reach this answer.
Using R Studio : Suppose X ∼ Possion(2). Report the probability that P (1 < X...
Please answer the following Question using R-studio please give me the code Given the joint probability distribution +xe 0 for 0<x,xx<1 f(x elsewhere Use R function to find P[(X, X2,X) e A], where A is the region 1 1 <x<1,x 2 2
R PROGRAMMING by using R studio or R software 1. The probability that a patient recovers from a rare blood disease is 0.4. If 15 people are known to have contracted this disease, what is the probability that a) at least 10 people survive, b) 3 to 8 people survive, c) exactly 5 people survive? d) Plot the graph of the distribution.
Solve the following problems in R studio or R. please help with this question in writing codes in R. 1. Suppose you toss a fair coin 10 times, let X denote the number of heads. (a) What is the probability that X=5? (b) What is the probability that X greater or equal than 5? (c) If I want to make sure that the P(X<a) > 0.8, what is the minimum value of a? (a is an integer)
1. An application in probability (a) A function p(q) is a probability measure if p(x) > 0VT E R and (r) dx = 1. We first show that p(x):= vino exp(-) is a probability measure. (1) Compute dr. (ii) Show that were dr = 1. (ii) (1pt) Conclude that pr(I) is a probability measure. (b) A random variable x(): R + R is an integrable function that assigns a numerical value, X(I), to the outcome of an experiment, I, with...
Plese use R-Studio to answer this question. qbinom(p, size, prob) gives the smallest x value so that the probability of being less than or equal to x is at least p. Try the following: pbinom(0:10, size=10, prob=0.5) ; qbinom(0.75, size=10, prob=0.5) What is the value for which 90 percent of the probability is smaller than it, when you flip a fair coin 20 times?
Let descrete random variable X - Bin(9,0.3) Find: 1) Probability P(X>5) 2) Probability P( X 2 ) 3) Probability P(2<x<5) 4) Probability P(2<x<5) 5) Probability P(X=0) 6) Probability P(X= 7) 7 Mx 8) Ox Show your explanations. Displaying only the final answer is not enough to get credit Note: round calculated numerical values to the fourth decimal place where applicable.
Let descrete random variable X ~ Bin(9,0.4) Find: 1) Probability P(X> 4) 2) Probability P(X> 2) 3) Probability P(2<X<5) 4) Probability P(2<X<5) 5) Probability P(X=0) 6) Probability P(X=6) 7) ux 8) TX Show your explanations. Displaying only the final answer is not enough to get credit. Note: round calculated numerical values to the fourth decimal place where applicable.
Please answer using R studio (1 point) Alzheimer's disease is a progressive disease of the brain. An article published in 2006 was critical of the methodology used in studies of Alzheimer's treatments conducted prior to 2006. In a random sample of n = 31 Alzheimer's studies, the quality of the methodology was measured on the Wong scale with scores ranging from 9 (low quality) to 27 (high quality) for each study. The data is provided below. data can be copied...
Let descrete random variable X ~ Bin(9,0.4) Find: 1) Probability P(X>4) 2) Probability P(X> 2) 3) Probability P(2 <X<5) 4) Probability P(2<X<5) 5) Probability P(X =0) 6) Probability P(X =6) 7) ux 8) OX Show your explanations. Displaying only the final answer is not enough to get credit. Note: round calculated numerical values to the fourth decimal place where applicable.
If continuous random variable X~ N(6,4), compute 1) Probability P(X>6.) 2) Probability P(3.<X<7.) 3) Probability P(-1.5 <X<2.5) 4) Probability P(-2.<X – 2<5.) Show your explanations. Displaying only the final answer is not enough to get credit. Note: round calculated numerical values to the fourth decimal place where applicable.