With regard to ? H(soln), why are ? H1 and ? H2 endothermic , ? H3 exothermic ?
With regard to ? H(soln), why are ? H1 and ? H2 endothermic , ? H3...
The posterior probabilities of four hypothesis h1,h2,h3,h4 are (0.2, 0.5,0.2, 0.1) respectively. A new training sample is classified +ve by h2 and h3, while h1 and h4 classify the same data instance as -ve. Find the classification with Bayes Optimal Classifier and Brute Force Classification?
in
java
H1, H2, H3, Examl, Exam2 , Exam3 100,100,98,98, 70,87 98,70,87,100,100,98 100, 100, 98,70,87,98 Create a program that allows us to: -Print out all column info when given a column -Compare which column is larger from every row Sample Run: Enter file name: class.txt Exami 98 100 70 Column 1 (H1) is larger: 100 Column 1 (H1) is larger: 98 Column 1 (H1) is larger: 100
Which of the following are consistent, given consistent heuristics h1, h2? • h(n) = min{h1(n), h2(n)} • h(n)=wh1(n)+(1−w)h2(n), where 0≤w≤1 • h(n) = max{h1(n), h2(n)} This is an Artificial Intelligence question
Suppose the roller coaster in Fig. 6-41 (h1 = 32 m, h2 = 12 m, h3 = 25) passes point 1 with a speed of 1.40 m/s. If the average force of friction is equal to one sixth of its weight, with what speed will it reach point 2? The distance traveled is 45.0 m.
(a) Find the first four terms of the sequence of heights
h0=
h1=
h2=
h3=
(b) Find an explicit formula for the nth term of the
sequence
Suppose a ball is thrown upward to a height of ho meters. After each bounce, the ball rebounds to a fraction r of its previous height. Let hn be the height after the nth bounce. Consider the following values of ho and r. Complete parts (a) and (b) below. ho = 35, r=0.75
H1(2) y[n] Xn] 1 H3(2) H2(2) Figure 2: Consider the system shown in Figure 2. Suppose that Hi(z) = -1,-1 and H2(z) = 1-1,-1. Determine the impulse response h3[n] ++ H3(z) such that when x[n] = 8[n – 1], the output is y[n] = $[n – 1] +38[n – 3]. Using MATLAB, generate the signal x[n] and propagate it through the system to verify that the output y[n] is as desired.
Try this example with water first: H1 H1 H2 H2 H H Water, H20 Partial charges: His +0.38, O is -0.75 Formal charges: His O, O is o Oxidation State: His +1, O is-2 Electrostatic potential description: The blue (positive) and red (negative) potentials are separated. That makes the molecule polar. The molecule is dark blue (quite positive) over the hydrogen atoms and dark red (quite negative) over the oxygen atom, making water very polar. And now do these two...
H1= 3756.1
S1 = 6.9665
H2= 3143.8
H3 = 3690.1
H4 = 2441.8
H5 = 191.85
H6 = 193.8
stuck on H7
I (30 pts.) A steam power plant with a two-stage turbine and a closed feedwater heater is used to generate power at a local power plant. A portion of the steam at the exit of the first stage of the turbine is used raise the temperature of the water before entering the boiler. The remainder is reheated and...
1 Vector Operations H4 C4 HS H3 C3 C2 H6 H2 C1 H1 The positions (r,y, z) of each of the atoms in a given benzene molecule are known at a given moment of time, t, from a molecular dynamics simulation. If we are explicitly given the position vectors of the C1, C2 and H1 atoms: rH1 3.348ex 13.706ey + 27.438e find the following quantitities: 1. Vector Addition a. Determine the vector pointing from C1 to C2 b. Determine the...
3.In an ideal Vapor Compression Refrigeration Cycle, using h2=382 kJ/kg, h3=243.15 kJ/kg, h4=243.15 kJ/kg and h1=338.14 kJ/kg, determine the refrigerating effect in kJ/kg and coefficient of performance.