Using the binomial expansion, find the fourth root of 247. Show your work explicitly. Hint: Consider...

Consider a binomial experiment with two trials and p = .4. SHOW YOUR WORK! List all...

Consider a binomial experiment with two trials and p = .4. SHOW YOUR WORK! List all of the possible outcomes for the two trials. (2 points) Compute the probability of one success, P(1). (1 point) Compute P(0). (1 point) Compute P(2). (1 point) Find the probability of at least one success P(x ? 1). (2 points) Find the expected value. (1 point) Find the variance. (1 point)

find Taylor sequence at a=-1 for f(x)=x4+2x3+x-4 under assumption that f has a power series expansion....

find Taylor sequence at a=-1 for f(x)=x4+2x3+x-4 under assumption that f has a power series expansion. apply Taylor formula and show work

Consider a function f(x) = 2x3 − 11.7x2 + 17.7x − 5. Identify the root of...

Consider a function f(x) = 2x3 − 11.7x2 + 17.7x − 5. Identify the root of the given function after the third iteration using the secant method. Use initial guesses x–1 = 3 and x0 = 4. CAN YOU PLZ SHOW ALL THE WORK. THANK YOU

Use the Binomial Theorem to expand: ( 2x - 3 )^6. Show all your work. please...

Use the Binomial Theorem to expand: ( 2x - 3 )^6. Show all your work. please check if y= -3 in the binomial theorem.  (x+y)^n, thank you.

find the derivative and show all your work 1. y=5/sinx+1/cot x find the indicated derivative and...

find the derivative and show all your work 1. y=5/sinx+1/cot x find the indicated derivative and show all your work 2. find Y(4) if y=-7cos x 3. find y'' if y=8x sin x

please show all work so i can understand Write f(x)=ln((x^2 square root(x-4)/(x+1)^3)) in terms of lnx,...

please show all work so i can understand Write f(x)=ln((x^2 square root(x-4)/(x+1)^3)) in terms of lnx, ln(x+1), and ln(x-4). Then find f '(x).

Using Fermat’s Little theorem, find the multiplicative inverse of 4 in mod 13. Show your work....

Using Fermat’s Little theorem, find the multiplicative inverse of 4 in mod 13. Show your work. Using Euler’s theorem, find 343 mod 11.

Q1. Using Euclideanalgorithm find GCD(21, 1500). Show you work .Q2. Using Extended Euclidean algorithm find the...

Q1. Using Euclideanalgorithm find GCD(21, 1500). Show you work .Q2. Using Extended Euclidean algorithm find the multiplicative inverse of 8 in mod 45 domain .Show your work including the table. Q3. Determine φ(2200). (Note that 1,2,3,5, 7, ... etc.are the primes). Show your work. Q4. Find the multiplicative inverse of 14 in GF(31) domain using Fermat’s little theorem. Show your work Q5. Using Euler’s theorem to find the following exponential: 4200mod 27. Show how you have employed Euler’s theorem here

Part A. Consider the nonlinear equation x5-x=15 Attempt to find a root of this equation with...

Part A. Consider the nonlinear equation x5-x=15 Attempt to find a root of this equation with Newton's method (also known as Newton iteration). Use a starting value of x0=4 and apply Newton's method once to find x1 Enter your answer in the box below correct to four decimal places. Part B. Using the value for x1 obtained in Part A, apply Newton's method again to find x2 Note you should not round x1 when computing x2

Find the area enclosed by the ellipse x2144+y2256=1.x2144+y2256=1. Hint 1: Area can be found using the...

Find the area enclosed by the ellipse x2144+y2256=1.x2144+y2256=1. Hint 1: Area can be found using the double integral ∫∫DdA. Find P and Q so that ∂Q/∂x−∂P/∂y=1, then use Green's Theorem to get ∫∫DdA=∫∫D(∂P∂x−∂Q∂y)dA=∫CPdx+Qdy. Hint 2: Any P and Q such that ∂Q/∂x−∂P/∂y=1 will work, but P=−y/2 and Q=x/2 will give you the simplest integral. The area of the ellipse is? The area of the ellipse is