Consider a system with 2 components in L-V equilibrium and T and P. Consider adiabatic equilibrium...

Consider a t distribution with 18 degrees of freedom. Compute P(−1.00<t1.00). Consider a t distribution with...

Consider a t distribution with 18 degrees of freedom. Compute P(−1.00<t1.00). Consider a t distribution with 2 degrees of freedom. Find the value of c such that =P(t≥c)=0.01

A particular system is found to obey the following two equations of state: T= 3As2/v P=As3/v2...

A particular system is found to obey the following two equations of state: T= 3As2/v P=As3/v2 where A is a constant. a. Find the fundamental equation of this system by direct integration of its molar total differential form: du(s,v)=Tds - Pdv . (This is an integration over multiple variables, but the variables are not independent of each other. Your solution will have only one term, not two.) b. Find the chemical potential \mu as a function of s and v...

Consider the line L with parametric equations x = 5t − 2, y = −t +...

Consider the line L with parametric equations x = 5t − 2, y = −t + 4, z= 2t + 5. Consider the plane P given by the equation x+3y−z=6. (a) Explain why the line L is parallel to P b) Find the distance from L to P .

the calculator provided to solve the following problems. Consider a t distribution with 2 degrees P(-1.70<...

the calculator provided to solve the following problems. Consider a t distribution with 2 degrees P(-1.70< t< 1.70) Round your to at three places decimal places Consider a t distribution with 11 degrees of freedom. Find the value of such that P (t<c)=0.10 round your answer to at least three decimal places

Consider V = fp(t) 2 P2 : p0(1) = p(0)g, where P2 is a set of...

Consider V = fp(t) 2 P2 : p0(1) = p(0)g, where P2 is a set of all polynomials of degree less than or equal to 2. (1) Show that V is a subspace of P2 (2) Find a basis of V and the dimension of V

Consider the system of components connected as in the accompanying picture. Components 1 and 2 are...

Consider the system of components connected as in the accompanying picture. Components 1 and 2 are connected in parallel, so that subsystem works iff either 1 or 2 works; since 3 and 4 are connected in series, that subsystem works if both 3 and 4 work. If components work independently of one another and P(component i works) 5 .9 for i 5 1,2 and 5 .8 for i 5 3,4, calculate P(system does not work).

2. p1V1γ= p2V2γ is only correct when (a) a perfect gas undergoes an adiabatic process.        (b)...

2. p1V1γ= p2V2γ is only correct when (a) a perfect gas undergoes an adiabatic process.        (b) a perfect gas undergoes a reversible process. (c) a perfect gas undergoes a reversible adiabatic process.     (d) a real gas undergoes a reversible adiabatic process.      4. If a simple (meaning one-component, single phase) and homogeneous closed system undergoes an isobaric change with expansion work only, how Gibbs free energy varies with temperature?      (a) (G/T)p> 0        (b) (G/T)p< 0      (c) (G/T)p= 0        (d) Depending on...

Consider the point P(1, −1, 0) and the line l : (2, 5, −1) + t(−1,...

Consider the point P(1, −1, 0) and the line l : (2, 5, −1) + t(−1, −2, 1). (a) Check that P is not on l. (b) Find the point on l that is closest to P.

Consider the differential equation L[y] = y′′ + p(t)y′ + q(t)y = f(t) + g(t), and...

Consider the differential equation L[y] = y′′ + p(t)y′ + q(t)y = f(t) + g(t), and suppose L[yf] = f(t) and L[yg] = g(t). Explain why yp = yf + yg is a solution to L[y] = f + g. Suppose y and y ̃ are both solutions to L[y] = f + g, and suppose {y1, y2} is a fundamental set of solutions to the homogeneous equation L[y] = 0. Explain why y = C1y1 + C2y2 + yf...

Suppose u(t,x) and v(t,x ) is C^2 functions defined on R^2 that satisfy the first-order system...

Suppose u(t,x) and v(t,x ) is C^2 functions defined on R^2 that satisfy the first-order system of PDE Ut=Vx, Vt=Ux, A.) Show that both U and V are classical solutions to the wave equations  Utt= Uxx. Which result from multivariable calculus do you need to justify the conclusion. B)Given a classical sol. u(t,x) to the wave equation, can you construct a function v(t,x) such that u(t,x), v(t,x) form of sol. to the first order system.