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Dr. Philippe H. Trinh \\ | Dr. Philippe H. Trinh \\ | ||
- | Lecturer (Assistant Professor) in Applied Mathematics | + | University of Bath \\ |
Department of Mathematical Sciences \\ | Department of Mathematical Sciences \\ | ||
- | University of Bath \\ | ||
- | Bath, Somerset, UK \\ | ||
p.[my-last-name]@bath.ac.uk | p.[my-last-name]@bath.ac.uk | ||
- | [[https:// | + | {{: |
- | [[:collaborators|Collaborators and students]] \\ | + | [[https:// |
- | {{:trinh_cv.pdf|+ Curriculum Vitae (2016)}} \\ | + | [[https:// |
- | /*{{: | + | [[https:// |
+ | [[https://www.genealogy.math.ndsu.nodak.edu/id.php? | ||
- | /* | + | //To find your way around, click the navigation element on the left.// |
- | * If you're looking for current course scheduling, then the [[: | + | |
- | * If you're looking for course notes, then please go [[http:// | + | |
- | */ | + | |
- | * You might also be interested in learning a bit about [[: | + | ===== Group report (October 2021) ===== |
- | ==== 14 September 2017: Congratulations | + | //As we enter the start of the 2021-22 academic term, it is time to bring our summer to a close, to celebrate the various comings |
- | This comes a bit late as we are only two weeks away from a new academic term, but I wanted to pause and congratulate many of the successful research students from the 2016-2017 year. | + | {{ : |
- | * **John Fitzgerald** completed his outstanding Part B Extended Essay on //Complex ray theory, exponential asymptotics * applications to free-surface flow// and earned one of the highest essay marks of the year. He will continue on to do his Part C dissertation this year. | + | > [[news_2021-10-04|Group report |
- | * **Yyanis Johnson-Llambias** completed his Part C dissertation on //Complex singularities of the finite-depth Stokes waves// and will begin a doctoral degree in mathematics at Bath University this month. | + | |
- | * **Thomas Chandler** completed his Part C dissertation on //Complex singularities near the intersection of a free-surface and a rigid wall//, which also took home the Gibbs prize. | + | |
- | This coming academic year will bring a lot of new exciting undergraduate research students, both new and old. Stay tuned for announcements! | ||
- | ==== 17 June 2017: The Oxford-Cambridge Woolly Owl ==== | ||
- | Yesterday, we sent our team of seven students to compete against Cambridge in the Applied Maths Meeting (aka the Woolly Owl). This is a bienniel competition between Oxford and Cambridge graduate students to claim the prize of the Woolly Owl, a plush toy knitted by a tea-lady in the Maths Institute many years ago. The winner of the competition would be allowed to retain the owl for the next two years until the next clash. | ||
- | The history of the meeting stretches | + | /* |
+ | [[https://researchportal.bath.ac.uk/en/persons/philippe-trinh|University of Bath profile]] \\ | ||
+ | [[: | ||
+ | {{:trinh_cv.pdf|+ Curriculum Vitae (2016)}} \\ | ||
+ | {{: | ||
+ | */ | ||
- | {{ :start:huppertock.jpg? | + | /* |
+ | * If you're looking for current course scheduling, then the [[:teaching|teaching overview here]] might be useful. | ||
+ | * If you're looking for course notes, then please go [[http://www.theshapeofmath.com/ | ||
- | ==== 25 May 2017: A tax on those who can' | + | * You might also be interested in learning a bit about [[:research|what I do]] and the [[: |
+ | */ | ||
- | It's said that playing the lottery is akin to imposing a tax on those who cannot do mathematics. However, there are plenty of real-life situations where it becomes difficult to gauge whether or not you are getting a good deal. Issues of real-estate, | + | /* |
- | + | ==== Edit in progress | |
- | Here's a typical situation that will be familiar to a lot of our readers. You would like to take out a mortgage of a certain amount, let's say $L = L_0$. Currently, Halifax has a deal where they will charge you a fixed rate of $r_1 = 2.11\%$ interest on the first $t = n_1$ months. For the remainder of the time, up to $t = n_e$, they will charge the variable rate, which for simplicity we assume to be at $r_2 = 3.74\%$. | + | |
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- | Now when you fill out the details of the mortgage on their calculators, | + | |
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- | This turns out to be a question of recurrence relations. Let $L_n$ be the current loan amount in the nth month. During the first period, $0 < n < n_1$ we can verify that | + | |
- | \[ | + | |
- | L_n = L_{n-1}(1 + r_1/12) - m_1, | + | |
- | \] | + | |
- | + | ||
- | where $r_1 = 0.0211$ is the interest rate and it is assumed to be compounded monthly. From this, it follows that | + | |
- | \[ | + | |
- | L_n = k_1^n L_0 - m_1 \left(\frac{1 - k_1^n}{1- k_1}\right), | + | |
- | \] | + | |
- | + | ||
- | where we have set $k_1 = 1 + r_1/12$. In the same vein, we reason that in the second period, where $n_1 < n \leq n_e$, it follows that | + | |
- | \[ | + | |
- | L_n = k_2^{(n-n_e)} L^* - m_2 \left(\frac{1 - k_2^{n-n_e}}{1- k_2}\right), | + | |
- | \] | + | |
- | + | ||
- | where we have set $k_2 = 1 + r_2/12$. The key parameter here is the value of $L^*$, which is the loan amount that exists in the changeover month, $t = n_1$. By solving the above equations for $m_1$ and $m_2$, then these fixed monthly payments can be determined as a function of $L^*$ and all the other parameters of the problem. | + | |
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- | As a test, I found that Halifax was quoting me monthly figures of $m_1 = £620.87$ and $m_2 = £755.81$ for a loan of $£176, | + | |
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- | {{ : | + | |
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- | Based on the image, you see two things. First, there is a critical point of intersection where you would pay exactly the same every month, and where $m_1 = m_2$. This point occurs at $£723.432$. To me, it would seem sensible to simply charge this fixed amount for the duration of the mortgage. Of course, people will remortgage depending on the change | + | |
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- | The second point is that the changeover amount that Halifax imposes is instead on the right side of the intersection. Hence it requires a smaller initial monthly payment but a larger later payment. Because the total amount of interest paid increases (linearly) as you decrease $m_1$, this is in Halifax' | + | |
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- | What this certainly indicates is that it's not enough for you to simply consider the duration of a fixed-term mortgage, but there are often sneaky calculations behind the scenes that may be suboptimal for you if you go with their repayment scheme. | + | |
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- | ==== 30 January 2017: On reduced models for gravity waves generated by moving bodies ==== | + | |
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- | I'm happy to announce a recent [[https:// | + | |
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- | {{ : | + | |
- | (Left) Ernie Tuck (1939--2009) (Right) Marshall Tulin (1926--) | + | |
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- | Since around 2007--2010, I'd often play with certain reduced models for studying gravity wave generation by two-dimensional bodies. These reduced models you can derive using some more modern techniques in asymptotics, | + | |
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- | A few years ago, I spotted a curious question that was written in a transcription of audience questions in a conference where Tuck had presented his research (in fact, such transcriptions are quite rare in this day and age). [[https:// | + | |
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- | //" | + | |
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- | Tuck had replied that he didn't know the answer, and the matter was apparently left at that. However, Tulin' | + | |
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- | Tulin was quite pleased to have been asked for more details (as it had been over two decades since that conference!). He told me that he had, in fact, published a report in 1983 for the 14th Symposium on Naval Hydrodynamics where he laid out a particularly involved reduction of the water wave equations. | + | |
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- | He explained that nobody had really picked up on the 1983 paper (1 current citation!), even though there were a series of questions he had asked and a series a results he had presented that had seemed of some importance. He encouraged me to look up the manuscript and close the chapter, if I could. | + | |
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- | And so I did. The result is this most recent paper. | + | |
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- | {{ : | + | |
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- | ==== 8 September 2016: A topological study of gravity free-surface waves generated by bluff bodies using the method of steepest descents ==== | + | |
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- | {{ : | + | |
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- | This paper, now published in the Proceedings of the Royal Society A (PRSA) has a few interesting distinctions. It's the first paper I've published in PRSA---but hopefully not the last as it's certainly a strong journal with an illustrious history. It's the first solo paper I've published. And it has the longest title of any other paper I've worked on. | + | |
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- | In any case, it's a paper where I explore exponential asymptotic techniques for free-surface flows (now well known) from a slightly different viewpoint. It turns out that the situation of gravity waves permits the governing equations to be re-formulated in a particularly simple way: that of a first-order nonlinear differential equation. In this paper, I show how the differential equation is studied using steepest descents. What results is a visual and beautiful way of understanding wave-structure interactions through a correspondence with the topology of certain Riemann surfaces (seen above). | + | |
- | You can download | + | It's been a while since I edited this page...edits in progress (Mar 2019) |
- | ==== 01 June 2016: New singularities in Stokes waves ==== | ||
< | < | ||
<iframe src=' | <iframe src=' | ||
</ | </ | ||
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- | I'm happy to announce the publication of a paper in collaboration with [[collaborators# | ||
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- | Interestingly, | ||
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- | ==== 18 May 2016: Jet flows from angled nozzles ==== | ||
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- | [[this> | ||
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- | A late congratulations to second-year student [[collaborators# | ||
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- | ==== Jan 2016: Spot patterns on the surface of the sphere ==== | ||
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- | I'm happy to announce the publication of my paper in the journal // | ||
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- | ==== June 2015: Fluids and elasticity in France | ||
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- | I'll be attending the Fluid and Elasticity 2015 conference, from June 22-24 in Biarritz, France, and presenting some joint work with Stephen K. Wilson (Strathclyde University) and Howard A. Stone (Princeton University). | ||
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- | ==== May 2015: Two new papers published ==== | ||
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- | {{ : | ||
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- | I'm happy to announce the publication of two new papers. The [[http:// | ||
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