Question 2 Answer Submitted: Your final submission will be graded after the due date. Tries 1/1...
Let A and B be two events such that P(A)=0.35, P(B)=0.3 and P(AB)=0.5. Let A' be the complement of A and B' be the complement of B. (give answers to TWO places past decimal) 1. Compute P(A'). 0.65 Submit Answer Answer Submitted: Your final submission will be graded after the due date. Tries 1/99 Previous Tries 2. Compute P (AUB). .5 Submit Answer Answer Submitted: Your final submission will be graded after the due date. Tries 1/99 Previous Tries 3....
From Part A: Mass of KyFe(C204)y · 2H20 prepared : 4.450 g Mass of FeCl3 : 1.60 g From Part B: % Potassium in compound : 10.70 % % Iron (from ion exchange & titration vs. NaOH) : 12.40 % From Part C: % Oxlate : 49.14 % Enter the simplest formula of the Iron Oxalate Complex Salt: K 1 Fe(C204) 2 · 7 H20 Submit Answer Answer Submitted: Your final submission will be graded after the due date. Tries...
I think the answers I have might be right but I just wanted some input! Thanks! Main Menu Course Contents Online Lectures.. Lecture .. Bus Question : Throwing an oeject ㅇ Tinner □Notes à Evaluate臼Feedback-Prire Ornfo The plot shows the trajectory height versus distance of an object launched at an angle of θ. 71.0 degrees with the horizontal and an initial speed o What is the magnitude of the acceleration of the object at the highest point of the trajectory?...
LONG PROBLEM B. SUBMIT YOUR FINAL NUMERICAL RESULT BELOW, AND SUBMIT YOUR FULL WORK SHOWING ALL STEPS ON CANVAS AFTER THE TEST, WITHIN THE ALLOWED TIME. A copper wire makes up a 67.0 turns, 7.50 cm diameter coil. The resistance of the coil is 3.60 0. There is a magnetic field parallel to the axis of the coil. If the induced current in the coil is 5.20 A, what is the rate of change of the magnetic field?
With the completion of the determinations of % potassium, % iron, and % oxalate in the crystals, you may calculate the % water. The percentage compositionof the crystals, KxFe(C2O4)y · zH2O, has then been completely determined experimentally. The simplest formula (x,y,z) can now be calculated from the the percentage composition. Once the formula is know it is then possible to calculate the percent yield of product that was obtained in the preparation and purification of the crystals. From Part A:...
Question 1 Select the correct answer(s): When considering electromagnetic induction, Lenz's Law determines the magnitude of the emf induced across the ends of a coil of wire that is rotating in a magnetic field. The smaller the change in magnetic flux, the greater the induced emf. Faraday's Law can be used to calculate the magnitude of an induced emf. Electric current can be induced by a changing magnetic field. Submit Answer Tries 0/3
Several vectors in the x-y plane are shown in the figure with their tails at the origin of the coordinate system and with a label at their heads. Two of these vectors are given in terms of the unit-vectors i and j as P = (2.20i + 5.30j) and Q = (-5.30i + 5.40j), where the numbers are measured in meters. Identify vectors P and Q in the figure. The label of vector Q on the figure is ... A:...
Let X be a continuous random variable with the following probability density function f 0 < x < 1 otherwise 0 Let Y = 10 X: (give answer to two places past decimal) 1. Find the median (50th percentile) of Y. Submit an answer Tries 0/99 2. Compute p (Y' <1). Submit an answer Tries 0/99 3. Compute E (X). 0.60 Submit an answer Answer Submitted: Your final submission will be graded after the due date. Tries 1/99 Previous attempts...
In a mating between haploid yeast cells of type a = his4/TRP1 x type a = HIS4/trpi, the resulting diploid cells undergo meiosis and the genotypes of the tetrads are shown below. A. Match the appropriate tetrad ditype with the genotypes shown: parental (PD), non-parental (NPD), or tetratype (T). T PD i. his4/TRP1; his4/trpi; HIS4/trpi; HIS4/TRP1 NPD ii. his4/TRP1; his4/TRP1; HIS4/trp1; HIS4/trpi ili. his4/trpl; his4/trpl; HIS4/TRP1;HIS4/TRP1 Submit Answer Answer Submitted: Your final submission will be graded after the due date....
. . . х LONG PROBLEM A. SUBMIT YOUR FINAL NUMERICAL RESULT BELOW, AND SUBMIT YOUR FULL WORK SHOWING ALL STEPS ON CANVAS AFTER THE TEST, WITHIN THE ALLOWED TIME. The loop in the image is moving through the magnetic field B, of strength 1.20 T, at a speed vof 55.0 m/s. If the resistance in the loop is 1.50 O and the width of the wire is x = 9.00 cm, what is the magnitude of the induced current?...