show that q(x,t)=f(x+vt) and  q(x,t)=f(x-vt) are general solutions for thworynof vibrating strings

i) show that the function f: Q->Q defined by f(x)=1/((x^2)-2) is continuous at all x in...

i) show that the function f: Q->Q defined by f(x)=1/((x^2)-2) is continuous at all x in Q,but that it is unbounded on [0,2]Q. Compare to the extremal value Theorem.

Q) Find f. f''(x)= −2+36x−12x^2,    f(0)=7, f'(0)=12 f(x)= Q) Find f f''(t)=sint+cost,    f(0)=2,    f'(0)=3 f(t)= Q) Find f f''(x)=20x^3+12x^2+4,    f(0)=4,  &nbs

Q) Find f. f''(x)= −2+36x−12x^2,    f(0)=7, f'(0)=12 f(x)= Q) Find f f''(t)=sint+cost,    f(0)=2,    f'(0)=3 f(t)= Q) Find f f''(x)=20x^3+12x^2+4,    f(0)=4,    f(1)=2 f(x)=

Show if X ~ F( p, q) , then [(p/q) X]/[1+(p/q)X] ~ beta (p/2, q/2). Use...

Show if X ~ F( p, q) , then [(p/q) X]/[1+(p/q)X] ~ beta (p/2, q/2). Use transformation method.

Given are two algebraic representations depicting the position of an object: (1) x(t)= vt + x1...

Given are two algebraic representations depicting the position of an object: (1) x(t)= vt + x1 and (2) x = vt + x1 The symbols in both equations can be classified as parameters, variables (dependent and independent). Classify the symbols in each equation using your judgment. Select none if a symbol cannot be categorized, and you might place two symbols in one category if you decide so. Comment on your decisions. x(t)= vt + x1 Parameter Independent variable Dependent variable...

Verify by substitution that U(x,t) = A eB(x-vt) is a solution to the wave equation when...

Verify by substitution that U(x,t) = A eB(x-vt) is a solution to the wave equation when A and B are constants.

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...

let T: P3(R) goes to P3(R) be defined by T(f(x))= xf'' (x) + f'(x). Show that...

let T: P3(R) goes to P3(R) be defined by T(f(x))= xf'' (x) + f'(x). Show that T is a linear transformation and determine whther T is one to one and onto.

Find all the solutions to F(prime)(t) = (f(t)-3)^(2/3) t, f(0) = 3

Find all the solutions to F(prime)(t) = (f(t)-3)^(2/3) t, f(0) = 3

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.

Which of the following strings P is a Python program. (b) P = “def f(x): x...

Which of the following strings P is a Python program. (b) P = “def f(x): x = 'am I a Python program?'” (d) P = “def f(x,y,z): return y” (e) P = “def f(x): return y” For each of the following Python programs P and input strings I, give the output P(I), (f) P = “def f(x): return str(len(x+x+'x'))”, I = “GAGAT” (g) P = “def f(x): return str(len(x))”, I=P (h) P = “def f(x): return str(1/int(x))”, I = “0”