LEAD (Pb) DYNAMIC INSIDE A HUMAN BODY
In a case of human body absorbing lead which exceeds the tolerance limit of 10μg/dL, a problem that could afflict several kinds of health disorder would occur. As we can see nowadays, there are yet number sources of lead in all sorts of form of home furniture in our environment. This proble...
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id-itb.:151502017-09-27T11:43:10ZLEAD (Pb) DYNAMIC INSIDE A HUMAN BODY DESYTTA RAKHMANIAH (NIM : 101 06 094); Pembimbing : Dr. Nuning Nuraini, BENAZIR Indonesia Final Project INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/15150 In a case of human body absorbing lead which exceeds the tolerance limit of 10μg/dL, a problem that could afflict several kinds of health disorder would occur. As we can see nowadays, there are yet number sources of lead in all sorts of form of home furniture in our environment. This problem gets even worse because of the increasing accumulation in lead-attached-furniture of prior <br /> <br /> <br /> generation and a huge potential for human body, such that become more prone to be exposed by the danger of lead. In order to alleviate such awful peril caused by <br /> <br /> <br /> lead exposure, an effective method that is able to abate a significant amount of lead concentration in human body is required. The effective method elaborated in this analysis namely, First Order Differential Equation is a mathematical model that can be applied in understanding lead dynamic inside a human body. An abatement method of lead is ascertainable using several amounts of different <br /> <br /> <br /> scenario by applying Step Function in First Order Differential Equation solution. This method works in a way by affecting the coefficient determinant of how much <br /> <br /> <br /> or how less the lead exit rate moves out of the body through urine or confining the amount of lead concentration to meddle in the body. The result shows that the effective method in abating the lead concentration in the body is by confining the lead concentration that meddle in the body, in other words, it's better to move into a neighborhood in which has a little to no significance degree of lead and accelerate lead exit rate out of the body through urine by proper medication. text |
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In a case of human body absorbing lead which exceeds the tolerance limit of 10μg/dL, a problem that could afflict several kinds of health disorder would occur. As we can see nowadays, there are yet number sources of lead in all sorts of form of home furniture in our environment. This problem gets even worse because of the increasing accumulation in lead-attached-furniture of prior <br />
<br />
<br />
generation and a huge potential for human body, such that become more prone to be exposed by the danger of lead. In order to alleviate such awful peril caused by <br />
<br />
<br />
lead exposure, an effective method that is able to abate a significant amount of lead concentration in human body is required. The effective method elaborated in this analysis namely, First Order Differential Equation is a mathematical model that can be applied in understanding lead dynamic inside a human body. An abatement method of lead is ascertainable using several amounts of different <br />
<br />
<br />
scenario by applying Step Function in First Order Differential Equation solution. This method works in a way by affecting the coefficient determinant of how much <br />
<br />
<br />
or how less the lead exit rate moves out of the body through urine or confining the amount of lead concentration to meddle in the body. The result shows that the effective method in abating the lead concentration in the body is by confining the lead concentration that meddle in the body, in other words, it's better to move into a neighborhood in which has a little to no significance degree of lead and accelerate lead exit rate out of the body through urine by proper medication. |
| format |
Final Project |
| author |
DESYTTA RAKHMANIAH (NIM : 101 06 094); Pembimbing : Dr. Nuning Nuraini, BENAZIR |
| spellingShingle |
DESYTTA RAKHMANIAH (NIM : 101 06 094); Pembimbing : Dr. Nuning Nuraini, BENAZIR LEAD (Pb) DYNAMIC INSIDE A HUMAN BODY |
| author_facet |
DESYTTA RAKHMANIAH (NIM : 101 06 094); Pembimbing : Dr. Nuning Nuraini, BENAZIR |
| author_sort |
DESYTTA RAKHMANIAH (NIM : 101 06 094); Pembimbing : Dr. Nuning Nuraini, BENAZIR |
| title |
LEAD (Pb) DYNAMIC INSIDE A HUMAN BODY |
| title_short |
LEAD (Pb) DYNAMIC INSIDE A HUMAN BODY |
| title_full |
LEAD (Pb) DYNAMIC INSIDE A HUMAN BODY |
| title_fullStr |
LEAD (Pb) DYNAMIC INSIDE A HUMAN BODY |
| title_full_unstemmed |
LEAD (Pb) DYNAMIC INSIDE A HUMAN BODY |
| title_sort |
lead (pb) dynamic inside a human body |
| url |
https://digilib.itb.ac.id/gdl/view/15150 |
| _version_ |
1820737404313534464 |