Find the closure of the eventually zero sequences in R^ω in the product topology where ω=Z+

Prove that, as a subspace of R with its usual topology, Z has the discrete topology.

Prove that, as a subspace of R with its usual topology, Z has the discrete topology.

Find the temperature distribution T(r,θ,z) inside a cylinder of height z= 20 and radius r= 8...

Find the temperature distribution T(r,θ,z) inside a cylinder of height z= 20 and radius r= 8 , if the cylinder temperature is zero in all surface except the bottom circular surface where it is divided two halves , the first is held at T1= 100 c and the other is held at T2=200 c. please show me the solution with the details of the derivation .

A thermistors resistance varies with temperature as: R=R0eBT where R is in ohms Ω, T is...

A thermistors resistance varies with temperature as: R=R0eBT where R is in ohms Ω, T is in kelvins, and R0 and B are constants. If R=6900 Ω at the ice point and R=250 Ω at the steam point, Ts=373.15K. What is the rate of change of the resistance with temperature dRdT symbolically? Hint: dRdT=? Enter 1 for A), 2 for B), 3 for C), 4 for D), 5 for E) A) dRdT=ddT(R0eBT)=-RBT⋅eBT B) dRdT=ddT(R0eBT))=-RBT2⋅eBT C) dRdT=ddT(R0eBT)=-RBT3⋅eBT D) dRdT=ddT(R0eBT))=-(R⋅B⋅T) E) dRdT=ddT(R0eBT)=-R⋅B⋅T

1. a) Draw a sketch of: {z∈C|Im((3−2i)z)>6}. b) If 2i is a zero of p(z)=az^2+z^3+bz+16, find...

1. a) Draw a sketch of: {z∈C|Im((3−2i)z)>6}. b) If 2i is a zero of p(z)=az^2+z^3+bz+16, find the real numbers a,b. c) Let p(z)=z^4−z^3−2z^2+a+6z, where a is real. Given that 1+i is a zero of p(z): Find value of a, and a real quadratic factor of p(z). Express p(z)as a product of two real quadratic factors to find all four zeros of p(z).

2. Evaluate the double integral Z Z R e ^(x^ 2+y ^2) dA where R is...

2. Evaluate the double integral Z Z R e ^(x^ 2+y ^2) dA where R is the semicircular region bounded by x ≥ 0 and x^2 + y^2 ≤ 4. 3. Find the volume of the region that is bounded above by the sphere x^2 + y^2 + z^2 = 2 and below by the paraboloid z = x^2 + y^2 . 4. Evaluate the integral Z Z R (12x^ 2 )(y^3) dA, where R is the triangle with vertices...

find the transitive closure of R if MR is a) [1 0 0 0   1 1...

find the transitive closure of R if MR is a) [1 0 0 0   1 1 1 0 1] b) [ 1 0 1 0 1 0 0 1 0 1 1 0 0 1 0 0]

1. a) Express z = −i−sqrt(3) in the form r cis θ, where θ= Argz, and...

1. a) Express z = −i−sqrt(3) in the form r cis θ, where θ= Argz, and then use de Moivre’s theorem to find the two square roots of −4i. b) Consider: i) p(z)=iz^2+z^3+2iz−2z^2+2z. Given that z=2−2i is a zero of this polynomial, find all of its zeros. ii) p(z)=z^3−2z^2+9z−18. Factorise into linear factors.

a. Solve the following differential equation, where r and ω are constant parameters: dP/ dt =...

a. Solve the following differential equation, where r and ω are constant parameters: dP/ dt = r(1 − cos(ωt))P b. Solve the following differential equation: y'(x) + 4xy(x) = 2xe^(−x^ 2)

The RLC series circuit illustrated in the simulation has R = 1.49 Ω, L = 1.25...

The RLC series circuit illustrated in the simulation has R = 1.49 Ω, L = 1.25 H, and C = 198 µF. The applied AC voltage has a frequency of f = 60 Hz and a voltage of Δv = 120 V. 1-Find the inductive reactance, capacitive reactance, and impedance. XL = ........ Ω XC = ........ Ω Z = ......... Ω 2-Find the phase difference between current and voltage............. ° 3-Find the voltages ΔvR, ΔvL, and ΔvC. ΔvR =...

Use exponential generating functions to find the number of r-digit ternary sequences with at least one...

Use exponential generating functions to find the number of r-digit ternary sequences with at least one 0 and at least one 2.