rocophysics said:let u be the radican (is that the proper term? i forget) :D
bob1182006 said:your first choice on a u-substitution with a rational number should always be the entire thing under the square root.
try u=7*t^2+12 instead
The purpose of solving the integral in "Casey's First Day" is to find the area under the curve of the function represented by the integrand. This is an important concept in calculus and can have practical applications in fields such as physics, engineering, and economics.
To solve the integral in "Casey's First Day", you can use substitution, integration by parts, or a combination of both. It is important to carefully analyze the integrand and choose the most appropriate method for solving it.
The first step in solving this integral is to identify any patterns or special cases in the integrand. Then, choose an appropriate method (substitution or integration by parts) and perform the necessary calculations to simplify the integral. Next, apply any relevant trigonometric or algebraic identities to further simplify the integral. Finally, integrate the simplified expression and add any necessary constants of integration.
Yes, this integral can be used in calculating the distance traveled by an object with a changing velocity. In this scenario, the integrand would represent the velocity of the object at a given time, and solving the integral would give the total distance traveled by the object over a specific time period.
One tip for solving this type of integral is to carefully choose the substitution variable in order to simplify the expression. Another helpful technique is to look for ways to manipulate the integrand to fit a known integral formula. Additionally, practice and familiarity with different integration techniques can improve efficiency in solving these types of integrals.