What do you see? (1) Watch what happens. Start again What do you
see? (1) Describe what happens. How many dots are added each time?
What do you see? (2) Watch what happens; it starts with a square of
dots. Start again What do you see?(2) Can you describe what
happens? Would the same thing happen if you started with a larger
square? Or a smaller square? Can you write this algebraically? a a
Start with any square: a Take one away: a-1 a a Move the top row to
become a column a a a a a a a-1 a Move the top row to become a
column a a-1 Move the top row to become a column a+1 a-1 Move the
top row to become a column a+1 a-1 Move the top row to become a
column (a-1)(a+1) a+1 a-1 a-1 = (a-1)(a+1) What do you see? (3)
Watch what happens; the initial shape is a square. The shape
removed is a square. Start again What do you see? (3) Can you
describe what happens? Would the same thing happen if you with a
larger square? Or a smaller square? Can you write this
algebraically? What do you see? (4) Watch what happens. Start again
What do you see? (4) What would happen if it kept on going?
Describe what happens in words. Can you describe what happens using
numbers? Start again What should these be? What do you see? (4)
Does this help you to find the sum of the following: What do you
see? (5) Watch what happens. Start again What do you see? (5)
Describe what happens in words. What would happen if it kept on
going? Can you describe what happens using numbers? What do you
see? (5) Does this help you to find the sum of the following: What
do you see? (5) Can you think of a similar geometrical proof to
find the sum of the infinite series: Teacher notes: What do you
see? This edition looks at a range of visual stimuli and asks What
do you see? Many of the activities are visual representations of
proof, including sums of infinite series and algebraic equivalence.
The pedagogical focus for these activities is on generating
discussion amongst small groups of students in order that they
arrive at an understanding. At various times, the teacher might
circulate and listen in unobtrusively to discussions, ask probing
questions, or draw out conflicting or differing responses from
groups to contribute to a whole class plenary. The activities could
be used as a series of starter activities. These are some of the
approaches highlighted within the AfL session run by Simon Clay and
Debbie Barker at the MEI 2014 Conference. Additionally, these are
strategies which many girls find particularly supportive but thats
not to suggest that boys dont find them supportive too! Teacher
notes: What do you see? (1) Make it girl friendly: Ask students to
discuss it with a friend before giving an answer Teacher notes:
What do you see? (2) This activity shows that a-1 = (a-1)(a+1) Show
the sequence to students and ask them to describe what they see. A
specific size of square is shown, ask students to consider what
would happen with larger or smaller starting squares. They might
like to sketch them out to check, so some squared paper might be
useful. Make it girl friendly: Ask students to think, pair, share:
give students silent thinking time before a short discussion with a
partner and then others. Teacher notes: What do you see? (3) This
activity shows that a-b 2 = (a-b)(a+b) Show the sequence to
students and ask them to describe what they see. A generic square
is shown and a smaller generic square is removed. Can students
convince themselves that the rectangle on top will always fit at
the side? Encourage students to write this algebraically. Make it
girl friendly: Ask students to work with a partner; you circulate,
listening in and asking questions quietly to pairs. Teacher notes:
What do you see? (4) This activity shows the sum of the reciprocals
of powers of 2. Show the sequence to students and ask them to
describe what they see. Transitions are timed no mouse click
needed. Students in KS3 and 4 may describe the series in words. Ask
how much of the white square is used each time. The second part of
the sequence also shows the fractional values. Make it girl
friendly: Show the sequence two or three times through. Accept and
validate all responses. Teacher notes: What do you see? (5) This
activity shows the sum of the reciprocals of powers of 3. Show the
sequence to students and ask them to describe what they see.
Transitions are timed no mouse click needed. Students in KS3 and 4
may describe the series in words. Ask how much of the white square
is used each time. The second part of the sequence also shows the
fractional values. The third part of the activity asks if students
can think of something similar for reciprocals of powers of 4. An
example shown on the following slides shows that the sum is 1 / 3.
Make it girl friendly: Ask students to Convince themselves Convince
a friend Convince the class Teacher notes: What do you see? (5) In
this case, divide the square into quarters, colour one quarter dark
and two light. Teacher notes: What do you see? (5) With the
remaining space, divide it into quarters, colour one quarter dark
and two light. Teacher notes: What do you see? (5) With the
remaining space, divide it into quarters, colour one quarter dark
and two light. Teacher notes: What do you see? (5) For every one
dark section there will be two light sections.
