Answer:
The equilibrium points include
x₁ = - 1.177
x₂ = 0
x₃ = 1.177
Explanation:
At equilibrium, the sum of forces acting on a body is equal to zero.
F(x) = ax (b − cx²) [a = 8.97, b = 7.83, c = 5.65]
F(x) = (abx - acx³)
= (8.97×7.83)x - (8.97×5.65)x³
F(x) = 70.2351x - 50.6805x³
At equilibrium, F(x) = 0
70.2351x - 50.6805x³ = 0
x(70.2351 - 50.6805x²) = 0
x = 0 or (70.2351 - 50.6805x²) = 0
70.2351 - 50.6805x² = 0
50.6805x² = 70.2351
x² = (70.2351/50.6805)
x² = 1.385840708
x = ± 1.177
So, x = -1.177, 0 and 1.177
x₁ = - 1.177
x₂ = 0
x₃ = 1.177
Hope this Helps!!!
Answer:
— 1.177
0
1.177
Explanation:
Given that,
F(x) = ax(b — cx²)
Given that,
a = 8.97
b = 7.83
c = 5.65
F(x) = ax(b—cx²)
F(x) = abx — acx³
F(x) = 8.97 × 7.83x — 8.97 × 5.65x³
F(x) = 70.2351x —50.6805x³
Then, For a body to be in equilibrium the sum of forces acting on the body is zero. i.e. F(x) = 0
0 = 70.2351x —50.6805x³
70.2351x —50.6805x³ = 0
x(70.2351 —50.6805x²) = 0
For the multiplication of two number to be zero, it is either one of the number is zero or both of the number is zero
Therefore,
x = 0 OR 70.2351 —50.6805x² = 0
x=0
70.2351 — 50.6805x² = 0
50.6805x² = 70.2351
x² = 70.2351/50.6805
x² = 1.38584
x = √1.38584
x = ± 1.177
Then, the equilibrium position is
- 1.177, 1.177 and 0
So, the ascending order of the equilibrium position is -1.177, 0, 1.177
