stanford1463 said:Homework Statement
So my question is: what is the volume of the region R between the paraboloid 4-x^2-y^2 and the xy-plane?
Homework Equations
I know how to solve it, it is a triple integral, but how do you find the limits of integration?
The Attempt at a Solution
Do I set x=0, or y=0 to find the limits of integration of the triple integral to find the volume ? or? I'm completely lost.
Mark44 said:The paraboloid is defined by an equation, but I don't see one in your problem description.
A double integral will do the trick. For the limits of integration think about how this paraboloid intersects the x-y plane. The trace in the x-y plane is a circle, right?
No.stanford1463 said:Ok, for my limits, i got x is between 0 and 2, and y is between 0 and 2...so i did a double integral and got 16/3. Is that right?
Close. A given "vertical" stack ranges from y = -sqrt(4 - x^2) to y = +sqrt(4 - x^2). For the second question, the "vertical" stacks range from x = -2 to x = +2.stanford1463 said:Would it be plus/minus sqrt(4-x^2) ?
The volume of region R between a paraboloid and the xy-plane is the amount of space enclosed by the paraboloid and the xy-plane in three-dimensional space. It can be calculated using the formula V = ∫∫∫ dV, where dV is the infinitesimal volume element and the limits of integration are determined by the boundaries of the paraboloid and the xy-plane.
The boundaries for the volume calculation can be found by setting the equations for the paraboloid and the xy-plane equal to each other and solving for the variable that represents the limits of integration. This will determine the range of values for that variable that will be used in the triple integral.
No, the volume of region R cannot be negative. Volume is a measure of space and cannot have a negative value. If the result of the volume calculation is negative, it means that the boundaries were set up incorrectly and should be adjusted.
Yes, the volume of region R can be calculated using the triple integral method, which involves integrating the infinitesimal volume element over the boundaries of the region. However, there may be other methods, such as using geometric shapes or known formulas, that can also be used to calculate the volume.
Yes, the volume of region R can be approximated using numerical methods, such as Riemann sum or Monte Carlo simulation. These methods use smaller intervals or random sampling to estimate the volume of the region. However, the accuracy of the approximation will depend on the precision of the chosen method and the complexity of the region.