Sir ,
Your problem number b is simesomet wrong because r is differentation w r to X but q is differentation w r to y and also Z is not correct in the problem...if you give again I will definitely solve ..so plz kindly looked into that
I have calculated sensitivity, specificity, PPV, NPV, LR(+), and LR(-) for the test below. My question is how to describe the test, i.e. good/bad, any features to notice? Condition Present Condition Absent Total Test + 83 8 91 Test - 6 22 28 Total 89 30 119 Sensitivity = 0.93 Specificity = 0.73 PPV = 0.91 NPV = 0.79 LR(+) = 3.44 LR(-) = 0.095
7- Show a complete LR(0) and SLR(1) parsers, including the canonical collection of LR(0) and parsing table, using the following grammar E-→ E + T / T T-, T F / F l a l b Is this grammar LR(0) or SLR(1)? Why?
7- Show a complete LR(0) and SLR(1) parsers, including the canonical collection of LR(0) and parsing table, using the following grammar E-→ E + T / T T-, T F / F l a l b Is...
Ferthe zenc-crrent resoranl switch converter orla Determine Lr and Ge such thet tha maxium current Lr (ArPeale) As 9A, Deteanne the reguire sau china equency Lo 0 0 R, V 0 0
lensve s Hhe 2 to the LR)
Determine the limiting reactant (LR) and the mass (in g) of nitrogen that can be formed from 50.0 g N 2O 4 and 45.0 g N 2H 4. Some possibly useful molar masses are as follows: N 2O 4 = 92.02 g/mol, N 2H 4 = 32.05 g/mol. N 2O 4( l) + 2 N 2H 4( l) → 3 N 2( g) + 4 H 2O( g) LR = N2O4, 45.7 g N2 formed LR = N2O4, 105 g...
Content For an LR Circuit, r. where r is the time constant with mks units of s. There are two cases we care about. LR Circuit with a battery: where the voltage of the battery I 0632- . When LR Circuit without a battery: ter • the intervent of the inductor • When 0.368 First graph The I vs t graph shown below is for an LR circuit with a battery. Determine the time constant of the LR circuit. T=...
Derive LR and Wald test for exponential distribution.
35 and 36 thank you
QUESTION 35 Determine the limiting reactant (LR) and the mass (in g) of nitrogen that can be formed from 50.0 g N204 and 45.0 g N2H4. Some possibly useful molar masses are as follows: N204 = 92.02 g/mol, N2H4 = 32.05 g/mol. N204(0) + 2 N2H40 →3N2(g) + 4H2O(9) O LR = N2H4, 59.0 g N2 formed O No LR, 45.0 g N2 formed O LR = N2H4, 13.3 g N2 formed O LR =...
For each of the following production functions below, find the LR total cost as a function of Q: TC(Q) LR average total cost as a function of Q: ATC(Q) How does LR average total cost vary with Q? (Hint, find the derivative: dATC(Q)/dQ) Does this cost function exhibit economies of scale, diseconomies of scale, or constant returns to scale? A. Q = 4L^2 B. Q = 2L C. Q = L1/3
*3. Suppose that f:R2 >R is such that .) dy dr-1 and R LR l i f (x,y) dx dy--1. What range of values can I Lndrn2 possibly have? (Here R LR m2 refers to the Lebesgue measure in R2) Prove your assertion.