Answer:
(-20,-10)
Step-by-step explanation:
Solve for.x coordinate
solve for y coordinate
Answer:
slope: -3
y-intercept: 5
Step-by-step explanation:
y=mx+b, where m=slope and b=y-intercept
Answer:
Step-by-step explanation:
Given that:
The equation of the damped vibrating spring is y" + by' +2y = 0
(a) To convert this 2nd order equation to a system of two first-order equations;
let y₁ = y
y'₁ = y' = y₂
So;
y'₂ = y"₁ = -2y₁ -by₂
Thus; the system of the two first-order equation is:
y₁' = y₂
y₂' = -2y₁ - by₂
(b)
The eigenvalue of the system in terms of b is:
(c)
Suppose , then λ₂ < 0 and λ₁ < 0. Thus, the node is stable at equilibrium.
(d)
From λ² + λb + 2 = 0
If b = 3; we get
Now, the eigenvector relating to λ = -1 be:
Let v₂ = 1, v₁ = -1
Let Eigenvector relating to λ = -2 be:
Let m₂ = 1, m₁ = -1/2
∴
So as t → ∞
Answer:
n= -13/10
Step-by-step explanation:
-n= -7/10+2
-n= 13/10
n= -13/10