Please solve step by step. 1 point In an LC circuit, the capacitor plates reverse their charge. O Correct; every half oscillation O Incorrect O They simply lose it! O Correct; every full oscillation 2
please fast and clear Let A and B are mutually exclusive with P(BC)=1, P(AUB) Find P(A). Select one: 1/2 3/28 17/28 3/7 O 3/4
Consider the overall reaction and proposed mechanism. step 1: A + BC --> AB + C step 2: AB + D --> AD + B step 3: B + C --> BC overall reaction: A + D --> AD What step is rate determining (slow) if the rate law of overall reaction is Rate = k[A][BC]
If B⊂A, show that P(A)=P(B)+P(A∩BC)
Scenario 1: Suppose P(A|B)= 0.45, P(A|BC) = 0.55 and P(BC) =0.90. Using scenario 1, what is P(B)? A.10 B.41 C.50 D.61
8. (2 points) Consider the mechanism below Step 1 (slow) A2 BC AB+AC AB BC B2AC Step 2 (fast) B2+ 2 AC overall A22 BC What is the rate law of the reaction? a. b. What compound is considered an intermediate?
step by step please For the matrix A, find (if possible) a nonsingular matrix P such that p-1AP is diagonal. (If not possible, enter IMPOSSIBLE.) *-1-13) P= Verify that p-1AP is a diagonal matrix with the eigenvalues on the main diagonal. p-1AP -
If P(BC)=0.9, find P(B). P(B)=
P(B) = 0.6, P(C) = 0.15, P(B ∩ Cc) = 0.55, and P(A ∩ Bc ∩ Cc) = 0.05. Find P(Ac ∩ Bc ∩ Cc).
An LC circuit like that in the figure below consists of a 3.30-H inductor and an 836-pF capacitor that initially carries a 111-C charge. The switch is open for <0 and is then thrown closed at t = 0. Compute the following quantities at t = 5.00 ms. L8 (a) the energy stored in the capacitor (b) the total energy in the circuit (c) the energy stored in the inductor