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 month ago
- Sir what if we want to find…1 month ago
- Hello po! Question lang po…1 month 3 weeks ago
- 400000=120[14π(D2−10000)]
(…2 months 3 weeks ago - Use integration by parts for…3 months 3 weeks ago
- need answer3 months 3 weeks ago
- Yes you are absolutely right…3 months 3 weeks ago
- I think what is ask is the…3 months 3 weeks ago
- $\cos \theta = \dfrac{2}{…3 months 4 weeks ago
- Why did you use (1/SQ root 5…3 months 4 weeks ago
Our moderator lock this post
Our moderator lock this post for lack of data. The information actually is complete, we think the given 1200 cm3 is supposed to be a total surface area, the correct unit should be cm2.
We revised the problem and open it for commenting.
Maximum possible volume,
Maximum possible volume, given1200cm^2 of material, square base and open top
Volume = x2y
Surface Area = 1200 = 4x2 + xy =⇒ y =(1200 − 4x2)/x
v = x2y
v(x) = x2(1200 − 4x2)/x
v(x) = x(1200 − 4x2)
v'(x) = (1200 − 4x2) + x(−8x)
0 = 1200 − 12x2
0 = 100 − x2
x = ±10
v"(x)=-24x
v"(10)0
There is a maximum when x = 10 and y = 12
The largest possible volume of the box is 1200 cm3
Hello po sir, I think your
In reply to Maximum possible volume, by esmilitar
Hello po sir, I think your total surface area was interchanged. Since the base is square and open top, if the dimensions of the square base is x by x and the depth is y then the total surface area should be: x2 + 4xy = 1200
This problem is one of the common variable relationships of maxima and minima. This one needs no differentiation if we can familiarized the result. The result of this is always x = 2y.
Of course, doing the differentiation cannot be discounted. We really need it specially if the problem is twisted in another way so that the x = 2y is no longer applicable.
This problem is actually common to engineering board exams, it is encouraged to memorized the variable relationship rather than do the differentiation process to save considerable amount of time.
My answer to this problem is 4,000 cc.
thank you sir i should
In reply to Hello po sir, I think your by Jhun Vert
thank you sir i should familirized this one..