Please show work and explain: A student generates a plot of ln(k) vs ln[OH-]. The result yields a straight line with the equation: y = 1.01x + -0.92 According to this data, what is the order of the reaction in OH-, to the nearest whole number?
please show all work so i can understand Write f(x)=ln((x^2 square root(x-4)/(x+1)^3)) in terms of lnx, ln(x+1), and ln(x-4). Then find f '(x).
Please show the work for each. Thanks. The linearized version of the Clapeyron Equation is Ln(P) -AH/RT K (a) The data below are experimental values of the vapor pressure of pure ethanol at various temperatures. From a plot of Ln(P) vs. 1/T, calculate AHvap for ethanol using the Method of Least Squares Experimental Values of the Vapor Pressure of Pure Ethanol at Various Temperatures Vapor Pressure, P (torr) 298.15 303.15 308.15 313.15 318.15 323.15 328.15 333.15 338.15 55.9 70.0 93.8...
Please do all 3 questions and show all work. Extra CRedit singt ha preaise del a lum 2 21 ln V2 (cheek thedama len Vatn Extra CRedit singt ha preaise del a lum 2 21 ln V2 (cheek thedama len Vatn
Please show all work Consider a plane wave -ik.r E(r) = Ege = Eye-i(k+x+kyy+kzz) (1.1) where Eo = amplitude vector constant in space (complex phasor with direction) = E.(w) = Ey(w)|eibe (1.2) k= Ýk +ý k+2 kg r = x + ŷ y + 2 z k(w) = k} + k + k Wype = (1.3) (1.4) 27 (1.5) (a) Using the fact that V E(r) = 0 in the absence of sources, and the vector identity V.(VA) = V(VA)...
please find the derivative and show steps (e) f(x)= ln(5x+1) Midi
show work 2. What are the units of k in the following rate law? Show all work. R = K[A][B]
please answer all parts and show work. 20) The equilibrium constant for e reaction Ni2+ (aa) H3 (ag) a Ni(NH3)62+ (ng) is th K-5.6x10s at 298 K. a) What is AG0 at this temperature?
If you can show all the work please, thank you! What are the units of k in the following rate law? Rate = k[X][Y]
--- k is in the set of non-negative Real Numbers. PLEASE SHOW ALL WORK. A.) Provide an ACCURATE HAND SKETCHED ROOT LOCUS B.) Asymptote Intersection: C.) Asymptote angles : D.) Breakaway point(s): E.) Departure/Arrival angles: F.) Imaginary axis Intercept(s):