Find all sixth roots of unity in two ways: (a) Factor x^6-1 = 0 over R...

1). Consider the quadratic equation x^2+ 100 x + 1 = 0 (i) Compute approximate roots...

1). Consider the quadratic equation x^2+ 100 x + 1 = 0 (i) Compute approximate roots by solving x^2 -100 x = 0 (ii) Use the quadratic formula to compute the roots of equation (iii) Repeat the computation of the roots but use 3 digit precision.

Solve the equation x^2-40x+1=0 using the quadratic formula. Use five-digit decimal arithmetic to find numerical values...

Solve the equation x^2-40x+1=0 using the quadratic formula. Use five-digit decimal arithmetic to find numerical values for the roots of the equation; for example, you will need (399)^(1/2)= 19.975. Identify any loss-of-significance error that you encounter. (b) Find both roots accurately by using only five-digit decimal arithmetic.

Data Set: x y 0 4 2 2 2 0 5 -2 6 1 1. Find...

Data Set: x y 0 4 2 2 2 0 5 -2 6 1 1. Find intercept b0 2. Find slope B1 3. Find the best fitted linear regression equation 4.Graph observations 5.Graph the linear equation on the same plot 6. Find the coefficient of Determination r² 7. Find the linear correlation coefficient r 8.Interpret r (the correlation between x & y)

1.if a is uniformly distributed over [−12,24], what is the probability that the roots of the...

1.if a is uniformly distributed over [−12,24], what is the probability that the roots of the equation x2+ax+a+24=0 are both real? Hint: The roots are real if the discriminant in the quadratic formula is positive. 2.The time (in minutes) between arrivals of customers to a post office is to be modelled by the Exponential distribution with mean .38. Please give your answers to two decimal places. Part a) What is the probability that the time between consecutive customers is less...

(a) Use an Integrating Factor to solve the ordinary differential equation, r dy/dr + 2y =...

(a) Use an Integrating Factor to solve the ordinary differential equation, r dy/dr + 2y = 4 ln r, subject to the initial condition, y(1) = 0. [5 marks] (b) Solve the ordinary differential equation which is given in part (a) by first making the substitution, r = e x , to transform it into a differential equation for y in terms of x. [5 marks]

So if we can find a number r satisfying r2=b2−4ac, then we can solve for z...

So if we can find a number r satisfying r2=b2−4ac, then we can solve for z in terms of a,b,c and r as z=−b2a±r2a. Hopefully you can recognize the usual quadratic formula here. If b2−4ac is a positive real number, we usually just replace r with b2−4ac−−−−−−−√. However if b2−4ac is a negative real number, or in fact a general complex number---which will happen if a,b and c are complex numbers---then there is no canonical b2−4ac−−−−−−−√, but we could still...

In this exercise, we see that sometimes two numbers written using radicals may be equal to...

In this exercise, we see that sometimes two numbers written using radicals may be equal to each other, without this equality being obvious. Let p(x)=x^4-10x^2+1. (a) let r_1=sqrt(2) + sqrt(3), r_2= sqrt(2) - sqrt(3), r_3= -sqrt(2) + sqrt(3), r_4=-sqrt(2) - sqrt(3) (b) Using the quadratic formula, find expressions for the four roots of p(x). (c) Identify each of the roots in (b) as r_1, r_2,r_3, or r_4. How many strategies can you find? (d) If you had been given p(x)...

Find an integrating factor and solve the O.D.E. 1 + (x/y − sin(y) *dy/dx = 0.

Find an integrating factor and solve the O.D.E. 1 + (x/y − sin(y) *dy/dx = 0.

1. [10] Let ~x ∈ R n with ~x 6= ~0. For each ~y ∈ R...

1. [10] Let ~x ∈ R n with ~x 6= ~0. For each ~y ∈ R n , recall that perp~x(~y) = ~y − proj~x(~y). (a) Show that perp~x(~y + ~z) = perp~x(~y) + perp~x(~z) for all ~y, ~z ∈ R n . (b) Show that perp~x(t~y) = tperp~x(~y) for all ~y ∈ R n and t ∈ R. (c) Show that perp~x(perp~x(~y)) = perp~x(~y) for all ~y ∈ R n

1, Solve cos(x)=0.17cos(x)=0.17 on 0≤x<2π0≤x<2π There are two solutions, A and B, with A < B...

1, Solve cos(x)=0.17cos(x)=0.17 on 0≤x<2π0≤x<2π There are two solutions, A and B, with A < B 2, Find the EXACT value of cos(A−B)cos(A-B) if sin A = 3434, cos A = √7474, sin B = √91109110, and cos B = 310310. cos(A−B)cos(A-B) = 3, Find all solutions of the equation 2cosx−1=02cosx-1=0 on 0≤x<2π0≤x<2π The answers are A and B, where A<BA<B A=? B=?