# BIOL398-03/S13:Class Journal Week 14

### From OpenWetWare

(Difference between revisions)

(kevin mckay reflection) |
(answered reflection questions) |
||

Line 1: | Line 1: | ||

- | |||

[[Category:BIOL398-03/S13]] | [[Category:BIOL398-03/S13]] | ||

Line 9: | Line 8: | ||

*Looking back at the readings and the answers I gave to the questions for week 1, I have no new insights or answers to share. My answers remain the same, I still see myself as a biologist and a mathematician. Although over the past weeks in this class, my outlook on bio math has changed. I have gained a sense of the reality of biomath and the hard work that goes into it. I have gained an appreciation for how difficult this field of study really is. Analyzing biology with math seems to me a bit more complicated now as compared with analyzation of physical properties such as gravity. Biology is always changing, whereas gravity is a constant 9.81 Newtons per kilogram downwards. I have also learned that this type of work that involves this much use of computers is not really for me (although I did have an idea of this before the class). | *Looking back at the readings and the answers I gave to the questions for week 1, I have no new insights or answers to share. My answers remain the same, I still see myself as a biologist and a mathematician. Although over the past weeks in this class, my outlook on bio math has changed. I have gained a sense of the reality of biomath and the hard work that goes into it. I have gained an appreciation for how difficult this field of study really is. Analyzing biology with math seems to me a bit more complicated now as compared with analyzation of physical properties such as gravity. Biology is always changing, whereas gravity is a constant 9.81 Newtons per kilogram downwards. I have also learned that this type of work that involves this much use of computers is not really for me (although I did have an idea of this before the class). | ||

[[User:Kevin Matthew McKay|Kevin Matthew McKay]] 15:28, 25 April 2013 (EDT) | [[User:Kevin Matthew McKay|Kevin Matthew McKay]] 15:28, 25 April 2013 (EDT) | ||

+ | |||

+ | ==James P. McDonald Week 14== | ||

+ | [[User:James P. McDonald|James P. McDonald]] | ||

+ | |||

+ | #What is the value of combining biological and mathematical approaches to scientific questions? | ||

+ | #*Combining biological and mathematical approaches gives multiple perspectives on a question and allows for a more complete solution to a scientific problem. A very important aspect of combining biological and mathematical approaches is that it allows for both qualitative and quantitative analysis and solutions. Math has the ability to take a biological observation or result and put it into a equation. A math equation can take a qualitative observation and make it into a quantitative explanation, which can easily be manipulated and analyzed to answer scientific questions. This can be very beneficial in doing research because you can make predictions and experiments can be reproduced with ease. | ||

+ | #Looking back on your reflections on the Janovy and Steward readings from the Week 1 Class Journal, do you have any further insights to share? Have your answers changed to those original reflection questions? Why or why not? | ||

+ | #*When it comes to being a mathematician I now understand more of what Stewart was talking about. Stewart states that a mathematician more often sees the math that is taking place all the time around us. This class has shown me that math can be used, in addition to biology, to analyze and solve scientific questions. I originally would not have recognized the potential math that could be used in the biological processes we have looked at. In regards to the answers in my original reflection, my answer to the biologist question has not changed. I tend to thing of science in biological terms before anything else and this has not changed. But in regards to being a mathematician I am still not sure whether I would say I am one, but I have definitely seen the potential that mathematical approaches have. I have tried to learn to think more in mathematical terms and I think I will start to think more in terms of mathematical approaches in the future. | ||

+ | |||

+ | [[User:James P. McDonald|James P. McDonald]] 18:55, 25 April 2013 (EDT) |

## Revision as of 17:55, 25 April 2013

## Reflection

- Kevin McKay
- I feel that there is mathematics behind every phenomena in life that one could ever hope to study or understand, this obviously includes the science of life or biology. If one wishes to understand or make connections between data or observations of biology, a great way to analyse this data is with math. Using math in biological questions allows us to see the randomness and the orderliness of life.
- Looking back at the readings and the answers I gave to the questions for week 1, I have no new insights or answers to share. My answers remain the same, I still see myself as a biologist and a mathematician. Although over the past weeks in this class, my outlook on bio math has changed. I have gained a sense of the reality of biomath and the hard work that goes into it. I have gained an appreciation for how difficult this field of study really is. Analyzing biology with math seems to me a bit more complicated now as compared with analyzation of physical properties such as gravity. Biology is always changing, whereas gravity is a constant 9.81 Newtons per kilogram downwards. I have also learned that this type of work that involves this much use of computers is not really for me (although I did have an idea of this before the class).

Kevin Matthew McKay 15:28, 25 April 2013 (EDT)

## James P. McDonald Week 14

- What is the value of combining biological and mathematical approaches to scientific questions?
- Combining biological and mathematical approaches gives multiple perspectives on a question and allows for a more complete solution to a scientific problem. A very important aspect of combining biological and mathematical approaches is that it allows for both qualitative and quantitative analysis and solutions. Math has the ability to take a biological observation or result and put it into a equation. A math equation can take a qualitative observation and make it into a quantitative explanation, which can easily be manipulated and analyzed to answer scientific questions. This can be very beneficial in doing research because you can make predictions and experiments can be reproduced with ease.

- Looking back on your reflections on the Janovy and Steward readings from the Week 1 Class Journal, do you have any further insights to share? Have your answers changed to those original reflection questions? Why or why not?
- When it comes to being a mathematician I now understand more of what Stewart was talking about. Stewart states that a mathematician more often sees the math that is taking place all the time around us. This class has shown me that math can be used, in addition to biology, to analyze and solve scientific questions. I originally would not have recognized the potential math that could be used in the biological processes we have looked at. In regards to the answers in my original reflection, my answer to the biologist question has not changed. I tend to thing of science in biological terms before anything else and this has not changed. But in regards to being a mathematician I am still not sure whether I would say I am one, but I have definitely seen the potential that mathematical approaches have. I have tried to learn to think more in mathematical terms and I think I will start to think more in terms of mathematical approaches in the future.

James P. McDonald 18:55, 25 April 2013 (EDT)