Active forum topics
- Hydraulics: Rotating Vessel
- Inverse Trigo
- Application of Differential Equation: Newton's Law of Cooling
- Problems in progression
- General Solution of $y' = x \, \ln x$
- engineering economics: construct the cash flow diagram
- Eliminate the Arbitrary Constants
- Law of cosines
- Maxima and minima (trapezoidal gutter)
- Special products and factoring
New forum topics
- Hydraulics: Rotating Vessel
- Inverse Trigo
- Problems in progression
- General Solution of $y' = x \, \ln x$
- engineering economics: construct the cash flow diagram
- Integration of 4x^2/csc^3x√sinxcosx dx
- Maxima and minima (trapezoidal gutter)
- Special products and factoring
- Newton's Law of Cooling
- Find the roots of the quadratic equation by differentiation method
Recent comments
- Bakit po nagmultiply ng 3/4…3 weeks 5 days ago
- Determine the least depth…10 months 3 weeks ago
- Solve mo ang h manually…3 weeks 5 days ago
- Paano kinuha yung height na…11 months ago
- It's the unit conversion…11 months 2 weeks ago
- Refer to the figure below…11 months 1 week ago
- where do you get the sqrt413 weeks 5 days ago
- Thank you so much3 weeks 4 days ago
- How did you get the 2.8 mins…3 weeks 4 days ago
- How did you get the distance…3 weeks 4 days ago
Yes, the given is a Bernoulli
Yes, the given is a Bernoulli's equation
$1 - 3rs\,s' + r^2 s^2\,s' =0$
$1 - 3rs \, \dfrac{ds}{dr} + r^2 s^2 \, \dfrac{ds}{dr} = 0$
$dr - 3rs \, ds + r^2 s^2 \, ds = 0$
$dr - 3sr \, ds = -s^2 r^2 \, ds$
The equation is in the form
$dr + P(s) \, r \, ds = Q(s) \, r^n \, ds$