Active forum topics
- Inverse Trigo
- 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
- Integration of 4x^2/csc^3x√sinxcosx dx
- application of minima and maxima
- Sight Distance of Vertical Parabolic Curve
New forum topics
- Inverse Trigo
- 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
- Law of cosines
- Can you help me po to solve this?
- Eliminate the Arbitrary Constants
Recent comments
- Yes.1 week 2 days ago
- Sir what if we want to find…1 week 2 days ago
- Hello po! Question lang po…3 weeks 6 days ago
- 400000=120[14π(D2−10000)]
(…2 months ago - Use integration by parts for…2 months 4 weeks ago
- need answer2 months 4 weeks ago
- Yes you are absolutely right…3 months ago
- I think what is ask is the…3 months ago
- $\cos \theta = \dfrac{2}{…3 months ago
- Why did you use (1/SQ root 5…3 months ago
The easy way to handle it is
The easy way to handle it is by area-moment method. The key is on the moment diagram. Draw the moment diagram by parts and then revise your diagram by dividing the moment at each segment by EI that corresponds to the segment. Note that the degree of curve of the diagram won't change.
Here is an example:
Link: www.mathalino.com/node/922