Maths item of the month
A list of Maths Items of the Month categorised by GCSE/A level topics can be seen at: Maths Items of the Month Curriculum mapping.
Recent Maths Items of the Month
An autobiographical number is a number whose digits describe itself starting with the first digit giving the number of zeros, the next digit giving the number of ones, and so on. 2020 is an autobiographical number as it has 2 zeros, 0 ones, 2 twos and 0 threes.
What other numbers are autobiographical?
Santa's lost spreadsheet
Santa is delivering to children on Christmas Eve; if they’ve been nice over the year they will receive presents, if they’ve been naughty they’ll receive a lump of coal. There are 49 children living in Tinsel Town but Santa’s spreadsheet has lost the data for them. Santa decides to toss a fair coin for each child and deliver presents if it lands heads and a piece of coal if it lands tails.
Of the 49 children 25 receive presents and 24 receive a piece of coal. What is the probability that Santa’s last delivery in Tinsel Town is a piece of coal?
Maths Week England - MEI Desmos Maths Art Competition
As part of Maths Week England 2019 MEI is running a Desmos Maths Art competition. Students can submit entries of their best Desmos Art by Friday 22nd November and the best two in each of three age categories will win a Desmos T-shirt for themselves and their teacher as well as a pizza party for their classmates.
For more details see: www.visitemora.com/competitions.
Ritangle is a competition for teams of students of A level Mathematics, the International Baccalaureate and Scottish Highers: integralmaths.org/ritangle. The first five questions will be released on the following Mondays: 7th, 14th, 21st October; 4th and 11th November. The other 20 questions will then be released daily (on weekdays) from Tuesday November 12th, with question 25 released on Monday 9th December. Correct answers to these questions are needed to solve the final question, released on Tuesday 10th December.
Registration opens on Monday 7th October.
Please don’t share answers outside your team, others are having fun finding them!
Midpoints of the intersection of a line and a parabola
M is the midpoint of the points of intersection of y=x2 and y=2x+c (as c varies). Why does M move as it does?
Sums of three cubes
Both 11 and 12 can be written as the sum of the cubes of three integers:
11 = 33 + (−2)3 + (−2)3
12 = 73 + 103 + (−11)3
Which of the numbers from 1-100 can be written as the sum of the cubes of three integers?
MEI Conference 2019 – A couple of taster problems
The 2019 MEI Conference takes place at the University of Bath on 27-29 June. To see details of the conference and the wide variety of sessions on offer visit the conference website: conference.www.visitemora.com
The following problems featured in the 2018 Conference sessions Using graphing technology for teaching calculus and Modelling and hypothesis testing with the Normal Distribution.
Which of the following is true:
- eπ < πe
- eπ = πe
- eπ > πe
Choose either adult men or adult women. How tall are the tallest and shortest that you are likely to meet? Use this to estimate mean and standard deviation.
Mathematics in Education and Industry contains the following number of letters in each word:
11, 2, 9, 3, 8.
Using just one pair of brackets, find the difference between the largest and smallest possible values of the expression:11 × 2 + 9 ÷ 3 − 8
Calculators are allowed!
This is an example of the type of problem that will appear in Calculator Crunch: a new fun, free, summer challenge to help Year 6s get ‘calculator-ready’, and provide extra practice for Year 7s. For more details see www.visitemora.com/Primary-KS2-3-Transition.
April fool: 1=−1
Where is the flaw in the following argument?
The parabolas y=x2+2x−1 and y=x2−x+1 split the plane into four regions:
What is the maximum number of regions that two parabolas of the form y=ax2+bx+c can split the plane into?
What is the maximum number of regions that three parabolas of this form, or four parabolas of this form, can split the plane into?
Two equilateral triangles share a common vertex. Show that the lengths marked a and b are equal for any such arrangement.
Investigate the ratio a:b for other pairs of regular polygons.