observe primary and secondary equations: primary: f’(x) = (d-x) / [f(x) - L(d)] secondary: f’(x) =...

First, create 3 equations of the form ax+by+cz=d , where a, b, c, and d are...

First, create 3 equations of the form ax+by+cz=d , where a, b, c, and d are constants (integers between – 5 and 5). For example, x + 2y – 2= -1 . Perform row operations on your system to obtain a row-echelon form and the solution. Go to the 3D calculator website GeoGebra: www.geogebra.org/3d?lang=pt and enter each of the equations. After you have completed this first task, choose one of the following to complete your discussion post. 1. Reflect on...

Observe a fluid flow to which conservation of mass, energy equations, and/or Bernoulli’s equation may be...

Observe a fluid flow to which conservation of mass, energy equations, and/or Bernoulli’s equation may be applied. Use that observation to write and solve your own “homework-style” problem that analyzes a flow or designs something that flows. I recommend you choose something that you can observe and estimate sizes, mass or volume flow rates, velocities, etc. Use tools in chapter 5, including conservation of mass, energy equations, and/or Bernoulli equation.

1. The transformer below has a 120 V primary and a 15 V secondary and is...

1. The transformer below has a 120 V primary and a 15 V secondary and is rated for (S=50 VA). Z2 is 8 Ω. A) If the primary has 2000 turns, how many turns are in the secondary? B) What is the current in the secondary? C) What is the current in the secondary? D) What is the input impedance of the primary? E) What is the minimum value of Z2 for safe operation of the transformation? (Calculate Imax from...

Consider the following group of differential equations y´+y=F(x), where F(x)= x2, x3,...,xn F(x)= sen x F(x)=...

Consider the following group of differential equations y´+y=F(x), where F(x)= x2, x3,...,xn F(x)= sen x F(x)= [x] Resolve taking into account the above: a. Find the solution for each of the differential equations b. Discuss the trend approach between y (x) and f (x) c. Describe characteristics of the pattern that constitutes the expression of the solution y (x) and discuss it in the light of any known method Please help me to solve!

Use a system of equations to find the cubic function f(x) = ax3 + bx2 +...

Use a system of equations to find the cubic function f(x) = ax3 + bx2 + cx + d that satisfies the equations. Solve the system using matrices. f(−1) = 10 f(1) = 8 f(2) = 34 f(3) = 94

Which kind of carbanion is the most stable? a. methyl        b. primary      c. secondary             d. tertiary   &nbs

Which kind of carbanion is the most stable? a. methyl        b. primary      c. secondary             d. tertiary       e. both a and b

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 .

An ideal transformer has 150 turns on the primary winding and 600 turns on the secondary....

An ideal transformer has 150 turns on the primary winding and 600 turns on the secondary. If the primary is connected across a 110V generator, what is the output at the secondary? A: 110V B: 220V C: 440V D: 880V Please show work

A Bernoulli differential equation is one of the form dy/dx+P(x)y=Q(x)y^n (∗) Observe that, if n=0 or...

A Bernoulli differential equation is one of the form dy/dx+P(x)y=Q(x)y^n (∗) Observe that, if n=0 or 1, the Bernoulli equation is linear. For other values of n, the substitution u=y^(1−n) transforms the Bernoulli equation into the linear equation du/dx+(1−n)P(x)u=(1−n)Q(x). Consider the initial value problem xy′+y=−8xy^2, y(1)=−1. (a) This differential equation can be written in the form (∗) with P(x)=_____, Q(x)=_____, and n=_____. (b) The substitution u=_____ will transform it into the linear equation du/dx+______u=_____. (c) Using the substitution in part...

(1 point) A Bernoulli differential equation is one of the form dydx+P(x)y=Q(x)yn     (∗) Observe that, if n=0...

(1 point) A Bernoulli differential equation is one of the form dydx+P(x)y=Q(x)yn     (∗) Observe that, if n=0 or 1, the Bernoulli equation is linear. For other values of n, the substitution u=y1−n transforms the Bernoulli equation into the linear equation dudx+(1−n)P(x)u=(1−n)Q(x).dudx+(1−n)P(x)u=(1−n)Q(x). Consider the initial value problem y′=−y(1+9xy3),   y(0)=−3. (a) This differential equation can be written in the form (∗) with P(x)= , Q(x)= , and n=. (b) The substitution u= will transform it into the linear equation dudx+ u= . (c) Using...