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The following chemical reactions take place in a closed system
At equilibrium, they can be characterized by
where the nomenclature represents the concentration of constituent
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- In Exercises 7-14, balance the chemical equation for each reaction. 13.arrow_forwardLet x=x(t) be a twice-differentiable function and consider the second order differential equation x+ax+bx=0(11) Show that the change of variables y = x' and z = x allows Equation (11) to be written as a system of two linear differential equations in y and z. Show that the characteristic equation of the system in part (a) is 2+a+b=0.arrow_forward2. Find x, y and z using Gaussian elimination: x + 2y + 3z = 17 3x + 2y + z = 11 x − 5y + z = −5arrow_forward
- Given is a population of wolves (W) and rabbits (R). R[t+1] = R[t]+ g*R[t] * (1 – R[t]/K) - sR[t]W[t] W[t+1] = (1-u)W[t] + vR[t]W[t] Where the carrying capacity of rabbits is 1 million. The growth rate of rabbits is 10% a year and s is equal to 0.00001, v is 0.0000001, and u is equal to 0.01. How many wolves and how many rabbits exist in the equilibrium? Use the equations for the co-existence equilibrium. Implement the model into Google Sheets with the initial populations of 200,000 rabbits and 10,000 wolves. Show the dynamics over time. It may take a few hundred steps to get to an equilibrium Look at the effect of the carrying capacity of rabbits. Suppose environmental pollution decrease the carrying capacity for the rabbits. After trying different values of K, what can you conclude is the minimum carrying capacity needed to have a population of wolves surviving in this environment?arrow_forwardconsider the nonlinear second-order ODE x''+2x'+4x/(1+x^2)=0 a. convert to DE to a system b. Find all critical points of the resulting systemarrow_forwardFind the general solution of the given DE 2xy^2 + 4 = 2(3-x^2y)y'arrow_forward
- The free energy change for the following reaction at 25 °C, when [Ag+] = 1.16 M and [Cd2+] = 1.69×10-3 M, is -248 kJ:2Ag+(1.16 M) + Cd(s)====>2Ag(s) + Cd2+(1.69×10-3 M) ΔG = -248 kJWhat is the cell potential for the reaction as written under these conditions?Answer:______ VWould this reaction be spontaneous in the forward or the reverse direction? ___________arrow_forwardFind the general solution of (1+ cosy)dx - xsin ydy = 0. a. X - sin y - x cos y = C b. x + sin y + x cos y = C c. x = C(1 + cosy) d. x(1 + cos y) = Carrow_forwardConsider the following system of differential equations: dx dt =x−y+x2y dy dt =6x−2y−x2y. (a) Determine the Jacobian of the system for the steady state (0,0). (b) Determine the stability of the steady state and classify the steady state as a node, spiral, saddle point or center. (c) Does the system have another steady state? If so, find the steady state.arrow_forward
- For the following differential equations, determine a. order b. degree c. linearity(yes or no) d. dependent variables e. independent variable 1) (y′)23yy′ + xy = 0 2)( d2r/dt2)3+ (d2r/dt2)2+ y(dr/dy)= 0 3) xy′′′ − x2y′′ − x3y′ − y = x 4) x(d3y/dx3) + 7(dy/dx)− 7y = 6 5) 4y′′′ − 5y′′ − 6y = 0arrow_forwardGiven IVP: DE: dy/dx=3 (y-2)^(1/4) IC: y(1)=2. Does the E-U Theorem imply that the given IVP has a unique solution.arrow_forwardSolve the initial value problem y'' - 4y = 6 t exp(t) using Laplace transforms. When writing your answer limit yourself to showing (i) the equation for L(y), the Laplace transform; (ii) the partial fraction decomposition; (iii) the antitransforms that finish the problem. initial condition y(0) = y'(0)=0arrow_forward
Linear Algebra: A Modern IntroductionAlgebraISBN:9781285463247Author:David PoolePublisher:Cengage Learning