task of the week – Page 3

Dörthe Ludwig created in Dresden the task “Majestätische Steine” (engl.: “Majestic Stones”) which we now choose as our new MathCityMap Task of the Week. In the interview, Dörthe Ludwig explaines how she uses MCM to foster her daughter’s mathematical interest.

How did you discover the MathCityMap project? How do you use MCM and why?

I am a teacher at a secondary school and attend a 4-semester extra-occupational training course at the TU Dresden. In a didactics seminar we were introduced to the MCM project in a lecture.

Since my daughter (3rd grade) was not so interested in a maths at this time, we searched together for tasks that can be found in our own environment. Now we want to create a route that she can solve together with her friends (and as many others as possible). She is already looking forward to it!

Please describe your task. How can it be solved?

The task is to skilfully determine the number of cobblestones on a certain parking lot at the primary school. The stones are placed in such a way that it results in a simple multiplication task, but it requires multiplication beyond the small 1×1. So you can simply calculate the number, or you can break the task down into subtasks that you can calculate in your head. In this case, one must not forget to add the partial results.

What didactic goals do you aim for with the task?

To be honest, my main didactic goal was to show my daughter that mathematics can be fun even if you don’t see the solution directly, but have to make a little effort to do so. It seems to have been successful! Of course I hope that many more children will enjoy solving the problem and will be proud of themselves in the end!

Further comments on MCM?

I am enthusiastic and I will try to create many MCM tasks in Dresden. I would also like to take my students out into the fresh air and create some tasks around our school in the future.

Our new task of the week is in the Grand Duchy of Luxembourg! In Schifflange, Yves Kreis, senior lecturer at the University of Luxembourg, has created the task “Windows“. In the following interview he reports about the use of MathCityMap for his university teaching.

Hello Yves, you use MathCityMap for your teaching at the University of Luxembourg. How does it work exactly?

MathCityMap was presented by Gregor Milicic from the MCM team Frankfurt at the conference “Pedagogical Innovations in STEAM Education Conference” in Linz in January. My colleague Ben Haas and I found the project directly interesting. When we were forced to change our evaluation because of the COVID-19 pandemic, we decided to work out an MCM trail in groups of 2-3 students with subsequent self-evaluation and peer-review of 3 trails from other students.

You have also created some sample tasks . Please describe your task “Window”. How can it be solved? What is the aim of this task?

The task is to determine the number of square windows of a glass lift tower. On one side there are 2 rows of 12 windows each. Only 3 sides are made of glass; the fourth side is the school building. According to this there are 3 ⋅ 2 ⋅ 12 = 72 square windows. The task can be solved by all pupils from class 3 on. The aim is for the children to recognise the patterns and use multiplicative structures instead of simply counting all the windows.

Do you have any further comments on MCM?

MCM has managed to transfer an old idea (mathematical trails) into today’s digital age. A connection to AR (e.g. GeoGebra 3D Calculator) would be very useful from my experience, as many students have planned such tasks.

More information about the use of MathCityMap in Luxembourg:

Interview with Lorenzo Salucci, the 5,000 MathCityMap users & students at the University of Luxembourg

The current task of the week is located in Lichtenfels, Germany. In this Franconian town the teacher Jörg Hartmann created the task “Der schöpfende Dümpfelschöpfer“ [engl. “The scooping ‘Dümpfelschöpfer’”] and answered several questions about it.

How did you get in contact with the MathCityMap project?

I first discovered the MathCityMap idea through a teacher training by Matthias Ludwig, head of the MCM team Frankfurt. During a project week at my school, the Meranier-Gymnasium in Lichtenfels, I offered a course on MCM trails.

Supported by six students of the nineth to the eleventh grade I created the math trail “Bergauf und Bergab, über Stock und Stein in Lichtenfels” [engl. “Uphill and downhill, over rough and smooth in Lichtenfels”], which contains the tasks “Der schöpfende Dümpfelschöpfer“. Subsequently I worked several times with different classes on the trail. A preparation of 20 minutes is suitable for this; the pupils then run the trail for two or three school lessons. The joy of the pupils is enormous, while the pupils experience mathematics in the open air – and the pupils learn an amazing amount.

Please describe your task. How can it be solved?

The famous sculpture in Lichtenfels, the so-called “Dümpfelschöpfer”, represent a man scooping water from an irregularly shaped pool. In the task I ask how often the man have to scope until the pool is empty. To solve the task, the students have to divide the problem into smaller subtasks, e.g. what the volume of the pool is or how units can be converted.

Which didactic goals do you want to promote?

I would like to encourage students which work on the math trail to perceive their environment from a mathematical perspective as well as to recognize the connection of school math and the real world. They might ask themselves which mathematical object has a similar shape to the bucket and how to convert a volume in m³ in litres.

Furthermore, I want students to do mental arithmetic and make rough estimation. By working on this task, they should realise how useful rough calculation is in everyday life.

Do you have any further commentary of MathCityMap?

I am enthusiastic about the idea of outdoor mathematics, and my students really enjoy to run a math trail. A lot of mathematical creativity is required to create a math trail. To be honest, at school the time to foster students’ mathematical creativity is limited – unfortunately I think the creation of a trail together with students is only possible during a project week.

Overall, the MathCityMap project is great! I really hope that some other users create trails around Lichtenfels, because I would definitely enjoy working on a “foreign” trail to get new ideas for math trail tasks.

The task of the week is back! After the Corona contact restrictions have been eased in most countries, we are looking forward to start the new outdoor mathematics season. Summer is MathCityMap time! And so, we eagerly await many new MathCityMap tasks.

The current Task of the Week is located in the Pyrenean village Arignac in the south of France, where the math teacher Sonja Rembert has created the task “Les nombres sur Castella” [Numbers on the tower].

How did you get to know MathCityMap?

I discovered the wonderful MathCityMap project through a publication on APMEP, a French website for math teachers (click here to see the article about MathCityMap on APMEP). In my teaching, I try to use approaches that are as interesting and varied as possible. Therefore, I was immediately enthusiastic about the Mathtrail idea!

In the first math trail I created, I want to lead the students out of the classroom and get them to get to know their surroundings or our village from a mathematical perspective.

Please describe your task. How could you solve it?

I have created the task “Les nombres sur Castella” in the small village Arignac in the south of France. The task is about an ordinary tower, as you often find in this region: A Castella. My 8-year-old pupils are asked to answer the following question: “Find all the numbers that can be seen on the tower and add them up! So, the goal is to add up all the numbers you can find on the tower. This can be tricky because there are numbers on a clock and there is a clock on each side of the tower. You can also read other numbers on two information boards on the tower.

Which didactic goals do you want to promote with this task?

The children should take a closer look at the familiar tower and recognise that they can find numbers everywhere, even “in real life”. In our daily life we are surrounded by numbers!

Do you have any further comments on MathCityMap?

I think the MathCityMap project is very useful to motivate students for math lessons! Therefore, I will create more math trails soon. Thank you very much for developing the great MathCityMap platform!

Our current task of the week is located in the German Hanseatic city Lübeck. Yvonne Kaiser created the GPS task „Ein Platz für die Statue – Umkreismittelpunkt des Dreiecks“ [„A location for the statue – circumcentre of a triangle”]. In the following she answers us several questions about her task and MathCityMap. Information about the task type GPS task, which can be easily created by using the Task Wizard, can be found here.

How do you get in contact with MathCityMap?

At the moment, I participate in a further training as a mathematics teacher on secondary level. During the training, we should create a MathCityMap math trail about geometric objects.

Please describe your task. Where is it placed? What´s the topic of the task?

The task formulation is: The statue in front of the building in the Kalkbrenner street should be placed on the school yard, so that the statue has the equal distance to our three school buildings. Find the point, which has the same distance to the three marked points.

To solve this task, the students firstly have to walk to the three marked points. They recognize that those three points are the corner points of a triangle. By using tape measures and protractors the students can determine at least two perpendicular bisectors. The intersection of those two lines is the circumcentre of a triangle, which is the quested point.

Which didactic aims do you want to stimulate through this task?

The aim of the task is to practice the geometric construction of perpendicular bisectors not only on a sheet of paper in the classroom but outdoors on the school yard. As the building behind the statue will be teared down prospectively, the question raises, where the statue will be placed afterwards. Thus, the story in the task formulation awakes further motivation.

Do you have any other commentary on MathCityMap?

Until now, I’ve never used MathCityMap in class. Therefore, I’m really looking forward to try it out and to observe, how students will work on this problem.

Our new Task of the Week was created by Angelica Benito Sualdea and Alvaro Benito Nolla de Celis in Madrid. In the following they will answer us some questions about their task “El volumen KIO” [engl. volume of one KIO tower].

How do you get in contact with MathCityMap?

We’ve been interested in Math Trails as an educational tool for the last recent years, and we discover MathCityMap during a talk in a conference. We really liked the idea and we immediately started to think in uploading some of our trails we had already created into the platform. It took us some time, but we finally did!

Please describe your task. Where is it placed? What´s the topic of the task?

The task is placed in a characteristic square in the north of Madrid. The square is dominated by two twin towers (the Puerta de Europa Towers, commonly known as the KIO Towers) which are oblique prisms bending one to each other with an angle of 14 degrees of inclination. Since 1996, they symbolise a picturesque “entrance” to the city. From a close look it realised that the towers are surrounded by a rectangular lattice, which divides each tower in a web of black aluminium windows.

Our task asks after the total volume of one of the KIO towers. It provides information about the dimensions of one of the windows: 1.20m x 1.34m. Since its volume is the same as the volume of a straight tower with the same base, to solve the task it is only needed to calculate the number of windows covering the base and the number of windows covering the height of the tower. By counting carefully, it can be checked that there are 30 windows along the base of the tower and 86 from the ground to the top, which implies that

Vol(KIO Tower) = A*h = (30*1.20)^2*(86*1.34) = 149.351 m^3

Which didactic aims do you want to stimulate through this task?

We would like to stimulate student’s ability of solving a complex problem (in this case, calculating the volume of a skyscraper) by just knowing the information of a small element of it (the dimensions of a window of the tower). We find very useful to teach that reducing problems to simpler ones is a powerful mathematical tool. Also, since the tower is an oblique prism, it’s volume is the same as the corresponding right prism, and this task is a stimulating real life example.

Do you have any other commentary on MathCityMap?

We love the app! we will continue creating trails and encourage our students to experience and design new trails.

Our new Task of the Week is located in Slovakia. In the town Nové Zámky, Aneta Vadkerti created the task “Fountain” and the math trail “Learn something new”.

How do you get in contact with MathCityMap?

A few weeks ago, a colleague of mine told me about this amazing mathematics application, which I could use while teaching. Veronika Bockova, who studies Mathematics in a nearby town, helped me to get familiar with it. When I later used it with my students, they were so excited that it motivated me a lot and I even tried to make my own trail.

Please describe your task.

My task “Fountain” is placed in the city centre, in the pedestrian zone in Nové Zámky, in Slovakia. The question is to figure out the radius of the fountain. As there is usually water in it, you can not just measure the radius. You have to measure the circumference of the fountain. And as the fountain is in a circle shape, you can find out length of the radius by using the formula C = 2πr. To calculate the radius, we use r = C/2π.

Which didactic aims do you want to stimulate through this task?

This is a kind of procedural task, which can provide students with a good practise of procedures. I focused on the knowledge students already possess. I also intended to stimulate logic thinking and problem solving through experiencing learning in a real-life situation – not only on theoretical, but on practical level, too.

Do you have any other commentary on MathCityMap?

Me and my students love the application MathCityMap. Students are outside, they are moving, breathing fresh air. There is a lot of group work, brainstorming, they help each other. They learn new interesting facts about the town and its history. And furthermore, they realise the big meaning of mathematics in life.

Our current task of the week leads us to Switzerland. Noah Gass, student of primary education, created the MathCityMap task “Rathaus” (engl. “town hall”) in Liestal near Graz. He answered us some questions about the MathCityMap app.

How did you get in contact with the MathCityMap app?

I am a student for primary education at the Pädagogische Hochschule Nordwestschweiz in Basel. I take part in a didactics seminar about teaching mathematics using digital media for which I created a MathCityMap mathtrail.

Please describe your task. How could students solve the task.

To answer the task, students have to find out how many hours the town hall is opened per week. Except for two days, the opening hours differ from day to day. For example, on one day the town is closed during a lunch break, on others it is opened continuously. First, the students have to calculate the daily opening hours. Then, they can figure out how long the town hall is opened weekly by adding those daily opening hours.

Which didactic aims are stimulated through your task?

To answer the questions, the students have to calculate with full and half hours – they need decimal numbers. Another difficulty is that the time is given in a scale of 24 units. However, speaking about time differs from the “written” digital time – to calculate the opening hours from half past 7 a.m. to 2 p.m. the students have to find out the time period between 7:30 and 14:00 o’clock.

Our current task of the week leads us to the Austrian state Steiermark. In Graz, Rosina Haider and Ursula Skrabitz created many interesting MathCityMap tasks. Professor Haider answered some questions about the MathCityMap app.

How did you get in contact with the MathCityMap app?

During the conference “Forschen. Lernen. Lehren an öffentlichen Orten” in Münster, Germany, I tested the MathCityMap app. Back in Graz, I was able to arouse my colleague’s interest in the app.

How do you use the MathCityMap app?

We use MCM in the context of our teaching at Kirchliche Pädagogische Hochschule Graz. The students of primary teacher training get the possibility to work on a trail. Afterwards, they have to create their own MCM task – at best their own trails – in small groups. The tasks are used in the math class of a primary school which is associated to our university.

Please describe your task. How could students solve the task.

The question of the task „Parkbänke aus Holzlatten“ (engl. „benches out of wooden slats“) is how long a single wooden slat would be, if the wooden slats of six benches were placed one after another. To answer the question, the kids have to count the number of benches as well as the number of wooden slats one bench consists of. Of course, they have to measure how long one of the slats is. Finally, the students should analyse the fictive length of the single wooden slat.

Which didactic aims are stimulated through your task?

The students

… find out the number of the installed wooden slats on an individual path.
… are able to add and multiplicate mentally or in writing within the range up to 1000
… can deal with the unit meter and
… are able to get on with their solving process on their own or by using the given hints.

Do you have any other commentary on MathCityMap?

We are enthusiastic about the MathCityMap app and are going to create some more interesting MCM trails.

“How old is this tree?” is the question of our current Task of the Week, which is located in Karlsruhe, Germany. Matthias Ludwig, the head of the MathCityMap team at Goethe University Frankfurt, gave us an interview about this task type.

Please describe this task type. How the age of the tree could be ascertained?

The task type “Age of the Tree” connects the learning of mathematics with non-mathematical knowledge or more specifically with information about trees: What does an oak, a beech or a lime tree looks like? How fast the tree species grows? Lots of further botanic questions could be examined subsequent to this task.

The classic solution process is to measure the circumference of the tree trunk at first, followed by the calculation of its diameter. However, students can also solve this task, if they don´t know the formula for the circumference yet. They can ascertain the diameter of the tree by measuring the distance between two parallel lines, which are both tangent to the trunk. If the students determined the diameter on one way or the other, they can approximate the age of the tree for example by using the rule of three.

The task “Age of the Tree” became a part of our task wizard a few weeks ago. The wizard provides all users prepared MathCityMap tasks, which can be created only by adding the measured data and a photo of the object – the sample solution and the hints emerge as if by magic.

Which didactic aims do you want to encourage through this task type?

In my opinion teachers and students should discover tasks, which exalt their mathematical imagination. For the reason that outdoor learning is highly useful, MathCityMap is one of many interesting ideas for the further development of modern math class.

Tag: task of the week

Task of the Week: Majestic Stones

Task of the Week: Windows

Task of the Week: The scooping ‘Dümpfelschöpfer’

Task of the Week: Les nombres sur Castella

Task of the Week: A location for the statue

Task of the Week: El volumen KIO

Task of the Week: Fountain

Task of the Week: Town Hall

Task of the Week: Benches out of Wooden Slats

Task of the Week: Age of the Tree