Math Principles

Friday, February 22, 2013

More Integration Procedures, 4

Category: Integral Calculus, Algebra

"Published in Newark, California, USA"

Evaluate

Solution:

The above equation cannot be integrated by a simple integration. In this type of equation, we will use the reciprocal substitution in order to simplify the equation and then integrate by a simple integration. Let's consider the above equation

Let

so that

Substitute the values of x and dx to the above equation, we have

but

Therefore,

Thursday, February 21, 2013

Newtons Law - Cooling, 2

Category: Chemical Engineering Math, Differential Equations, Algebra

"Published in Newark, California, USA"

The body of a murder victim was discovered at 11:00 pm. At 11:30 pm, the victim's body temperature was measured to be 94.6 °F. After 1 hour, the body temperature was 93.4 °F. The room where the body was found at a constant temperature of 70 °F. Assuming that Newton's Law of Cooling is applicable and assuming that the normal human body temperature is 37 °C, determine the time of death.

Solution:

This is a great application of Newton's Law of Cooling. Mostly the Federal Bureau of Investigation (FBI) and the police officers in United States of America are using this method to calculate the time of a death or murder. Even in other countries like Philippines, Canada, Mexico, Japan, Italy, China, and so on are using this method, too. Let's analyze the given word problem as follows

Let u = be the temperature of a dead body
t = be the time of death
k = constant of cooling/heating

According to Newton's Law, the time rate of change of temperature is proportional to the temperature difference.

The value of k is negative because it is a cooling process. When k is positive, then it is a heating process. The temperature of the surrounding is always a constant which is 70 °F. Solve for the general solution of the above equation, we have

Integrate on both sides of the equation

Take the inverse natural logarithm on both sides of the equation

but e^C is still a constant. The above equation becomes

To solve for the values of k and C, we need to get the values of the limits as follows

If u₁ = 94.6 °F, then t₁ = 0 (measured at 11:30 pm)
u₂ = 93.4 °F, then t₂ = 1.0 hr (measured at 12:30 am)

Substitute the first limit to the above equation to solve for the value of C

Therefore,

Substitute the second limit to the above equation to solve for the value of k

Take natural logarithm on both sides of the equation

Therefore,

Next, we need to use the normal temperature of a body (u = 37 °C = 98.6 °F) in order to calculate the time of death of a person as follows

Take natural logarithm on both sides of the equation

Since the value of time is negative, then we have to subtract it from the time where a dead body was first measured, which is at 11:30 pm, as follows

11:30 ------> 11:30:00    -------> 11:29:60
- 3:00:48    - 3:00:48    - 3:00:48
---------------
   8:29:12

Therefore, a person is dead at 8:29:12 pm.

Wednesday, February 20, 2013

Square Pyramid Problems

Category: Solid Geometry, Plane Geometry

"Published in Newark, California, USA"

A vessel is in the form of an inverted regular square pyramid of altitude 9.87 in. and a base edge 6.27 in. The depth of the water it contains is 6 in. How much will the surface rise when 1 pint of water is added? (One gallon = 231 cubic inches) Find the wetted surface when the depth of the water is 9.23 in.

Solution:

To illustrate the problem, let's draw the figure and label as follows