R2 is calculated with respect to each of the factors M1, M2, whereby each auxiliary value R1, R2 is the modular inverse of the value E in relation to the respective factors M1, M2 as a module, and the modular inverse R is calculated at least by using the calculated auxiliary value R1...
Sadly, I am still getting the same result which is only the diference between the first months So AverageX shows me the difference between M1 and M2, instead of the difference over the range of months: Data for ease: Month Revenue M14 $ 26,658,215 M13 $ 63,551,487 M12 ...
AUC of Macro in the classifier m1; AUC of Micro in the classifier m1; AUC of G1 v.s. the rest in the classifier m2; AUC of G2 v.s. the rest in the classifier m2; AUC of G3 v.s. the rest in the classifier m2; AUC of Macro in the classifier m2; ...
Calculate the magnitude and direction of the gravitational force on one sphere due to the other three. Answer from Back of Textbook: 3.3 x10^-8 N toward diagonally opposite sphere Homework Equations F = (Gm1m2)/r^2 m1 = mass1 m2 = mass2 G = constant 6.67 x 10^-11 r...
Based on the mean, I want to calculate,two slopes:M1 from the 1000 Hz to the mean and M2, from the mean to the end of the frequency range. I am completely lost on how to do this. The script I have so far, is as follows: ...
var M1 = +getField("Mileage 1").value; var M2 = +getField("Mileage 2").value; var M3 = +getField("Mileage 3").value; //Set Initial Date Values for July 1st and Dec. 31st var minDate = util.scand("mm/dd/yyyy","12/31/2017"); var maxDate = util.scand("mm/dd...
Problem: Cells B3:M5 contain the monthly income from three different sources (listed in cells A3:A5). Row 1 (cells B1:M1) contains the serial number matching each month in row 2 (cells B2:M2). Row 6 (cells B6:M6) contains SUM formulas, calculating total monthly income. ...
atan2(y, x) arc tangent of x/y. i.e. the angle between (0, 0) and (x, y) in radians.[/text] #3.3: Examples: A few examples of valid mathematical evaluators would be (M1*(20+M6+M5))+(M2*(15+M8))+(M3*12)+(M4*(10+M9))+((M1*(20+M6+M5))+(M2*(15+M8))+(M3...
M1 = (X2-X1) * sin(Y1*Z1) * cos(Y2*Z2) M2 = (X3-X2) * cos(Y2*Z2) * sin (Y3*Z3) and so on until the last value of 257. So far I used the FOR loop (1:size(Xin,1)) and tried to pull the values from Xin using (i) and (i-1), however it states...
Limit m1 = m2 = mp r1 = 6.464*10^-35 m rp = 1.616*10^-35 m r1 = 4rp Below that radius, it should be posible to use "plank time beats" to divide area into regions smaller that previous. So a fundamental break of physics will happen at "quantum kepler length of the particle m...