CONJUGATION OF THE VERB TO FACTORISE
PRESENT
Present
I factorise
you factorise
he/she/it factorises
we factorise
you factorise
they factorise
Present continuous
I am factorising
you are factorising
he/she/it is factorising
we are factorising
you are factorising
they are factorising
Present perfect
I have factorised
you have factorised
he/she/it has factorised
we have factorised
you have factorised
they have factorised
Present perfect continuous
I have been factorising
you have been factorising
he/she/it has been factorising
we have been factorising
you have been factorising
they have been factorising
Present tense is used to refer to circumstances that exist at the present time or over a period that includes the present time. The
present perfect refers to past events, although it can be considered to denote primarily the resulting present situation rather than the events themselves.
PAST
Past
I factorised
you factorised
he/she/it factorised
we factorised
you factorised
they factorised
Past continuous
I was factorising
you were factorising
he/she/it was factorising
we were factorising
you were factorising
they were factorising
Past perfect
I had factorised
you had factorised
he/she/it had factorised
we had factorised
you had factorised
they had factorised
Past perfect continuous
I had been factorising
you had been factorising
he/she/it had been factorising
we had been factorising
you had been factorising
they had been factorising
Past tense forms express circumstances existing at some time in the past,
FUTURE
Future
I will factorise
you will factorise
he/she/it will factorise
we will factorise
you will factorise
they will factorise
Future continuous
I will be factorising
you will be factorising
he/she/it will be factorising
we will be factorising
you will be factorising
they will be factorising
Future perfect
I will have factorised
you will have factorised
he/she/it will have factorised
we will have factorised
you will have factorised
they will have factorised
Future perfect continuous
I will have been factorising
you will have been factorising
he/she/it will have been factorising
we will have been factorising
you will have been factorising
they will have been factorising
The
future is used to express circumstances that will occur at a later time.
CONDITIONAL
Conditional
I would factorise
you would factorise
he/she/it would factorise
we would factorise
you would factorise
they would factorise
Conditional continuous
I would be factorising
you would be factorising
he/she/it would be factorising
we would be factorising
you would be factorising
they would be factorising
Conditional perfect
I would have factorise
you would have factorise
he/she/it would have factorise
we would have factorise
you would have factorise
they would have factorise
Conditional perfect continuous
I would have been factorising
you would have been factorising
he/she/it would have been factorising
we would have been factorising
you would have been factorising
they would have been factorising
Conditional or "future-in-the-past" tense refers to hypothetical or possible actions.
IMPERATIVE
Imperative
you factorise
we let´s factorise
you factorise
The
imperative is used to form commands or requests.
NONFINITE VERB FORMS
Past participle
factorised
Present Participle
factorising
Infinitive shows the action beyond temporal perspective. The
present participle or gerund shows the action during the session. The
past participle shows the action after completion.
10 ENGLISH BOOKS RELATING TO «FACTORISE»
Discover the use of
factorise in the following bibliographical selection. Books relating to
factorise and brief extracts from same to provide context of its use in English literature.
1
Singapore Secondary 3 Mathematics Challenging Drill ...
(a) Factorise 2x3 — xy — 4x2y + 2y2. (b) Solved+2:§_d+9. d 4 2d 19. Factorise
completely (a) xy+4y+3x +12 (b) 8y4 +14y2 —4 20. Factorise completely (X — y)(
2X — y) — (X — 2y)(y — X) - 21. Factorise completely (a) 4ax2 — 3b +12bx2 — a
...
Thomas Bond, Chris Hughes, 2013
I. Factorise 9ab + \2bc 9ab + \2bc = 36 x 3a + 30 x 4c = 3/> (3a + 4c) Factorise: 19
. 2.Y2-6.Y 20. 2r3 + 4z 21 . 25a2 - 5a 22. 12.Y2 + 16.Y 23. 5a/> - lObc 24. 3v2 +
27 v 25. 2a2 - \2a 26. 6p2 + 2p 27. 9 v2 - 6v Factorise ab + 2bc + bd ab + 2bc +
bd ...
3
Singapore Secondary 3 Mathematics Challenging Drill ...
Factorise completely 4802 —27d2. 6% 2. Factorise x6 —3x3 +2. 6% 3.
Factorisei5ax+21bx—14by—10ay completely. °'% 4. Factorise completely (a) 8a
—4a2 (b) 25y2—4 (c) 2x2+6xz+5xy+15yz 6% 5. Factorise completely the
following ...
Thomas Bond, Chris Hughes, 2013
4
Year 10 Advanced Mathematics: Stage 5.3
Then you will have the difference of two squares, twice. Hint 3: Be careful with the
negative values. Remember that a divides into a once. Hint 4: Factorise, then
cancel. Hint 5: Factorise both denominators first in order to find the lowest
common ...
Choose x = a. The LHS becomes f (a). The first term on the right is then 0, so f (a)
= r, which is the remainder. A powerful application of the remainder is the fact that
we can use it factorise cubics. We know that 4 is a factor of 12. Why is this so?
Example 1 Factorise fully 2ax2 - 8ay2. Start 2ax2 - Say2 = 2a(x2 - 4y2) = 2a(x - 2y
)(x + 2y) Remove any common factor ... common factor ... difference of two
squares Example 2 Factorise fully 3x2 + 3x - 6. 3x2 + 3x - 6 = 3(x2 + x - 2) = 3(x +
2)(x ...
7
Essential Mathematics 9
Factorise each of the following (a) (x - y)2 - z2 (b) (a + bf - Ac2 (e) c2 - (2a - 3b)2 (f
) (3x - y)2 - 4y2 (h) (7x + 3)2 - (3x - 4)2 (i) 16x2 - (4x - 1)2 4. Factorise each of the
following (a) x2 + 2xy + y2 - a2 (c) a2-6ab+9b2-16x2 (e) y2 - c2 + 2cx - x2 (g) ...
8
Excel Preliminary Mathematics
Facto rise: a 7* + 28 b h:-8/j 16x + 12y-36z d 5n2+25mn e aV-oV 51 Factorise: a
e2-100 b 1-r2 C 64p2-121fl2 d g' ... 2mn-6n d x2+xy + x + y 53 Factorise: a 06 -
9a - 76 + 63 b p2 +pq -mp-mq 54 Factorise: 5 x2+7x + 12 b £2+3c-88 c k2 - 9k +
20 ...
... q)2-l(p + q) + 6 Let p + q = r = 2r2-lr + 6 = 2r2-(4 + 3)r + 6 = 2r2-4r-3r + 6 = 2r(r-2
)-3(r-2) = (r-2)(2r-3) = (p + q-2)[2(p + q)-3] = (p + q-2)(2p + 2q-3) 6. (a) Factorise :
20 - 45 (m + n)2 (ft) Factorise : 4r2 + 9y2 (c) Factorise : a2 + b1 + a + ft + lab Sol.
Augustus De Morgan, John Whitehead
10
Together with Continuous and Comprehensive Evaluation (CCE) ...
24. Show that if 2 (a2 + b2) = (a + A)2, then a = b. Sol. 2 (a2 + b2) - (a + bf => 2cr
+ 2b2 = cr + 62 + 2a6 => la2 + 2b2- a2 - b2 - 2cj6 = 0 => a2 4 62 - 2aft = 0 =>(a- ft)
2 = 0 => a - b = 0 or a = b. 25. Factorise each of the following : (a) x2 + 2ax - b2 ...
10 NEWS ITEMS WHICH INCLUDE THE TERM «FACTORISE»
Find out what the national and international press are talking about and how the term
factorise is used in the context of the following news items.
A little bit, better
One example—Shor's algorithm, invented by Peter Shor of the Massachusetts Institute of Technology—can factorise any non-prime number. «The Economist, Jun 15»
ASUS ZenPower 10050mAh Power Bank Review: Compact Yet …
For testing the power bank, we used various smartphones and gadgets from different makers to factorise the real output. Before moving any ... «International Business Times, India Edition, Jun 15»
Miranda Bryant: Schools should not be fodder for reality TV fans
That's surely where a school should step in to say no for them. It's time to de-X Factorise classrooms and stop turning schoolchildren into reality ... «Evening Standard, Oct 14»
Over 400 delegates expected at BOCCIM conference
hence top of the agenda would be addressing issues that factorise this. “The country is not competitive as it has been rated in the lowest ... «Mmegi Online, Oct 14»
The lighter side of the dark net
These agencies don't have to factorise the product of two primes, they've got a database of products of primes and they just look the multiplier ... «Telegraph.co.uk, Sep 14»
Google Can't Protect Our Privacy-Why We Need New Laws
At its heart is a simple idea – that while it's trivially easy to multiply two very large numbers together, it's computationally very difficult to factorise ... «Business Insider, Jun 14»
The threat to internet security from quantum computing
It is used to factorise large numbers, something that classical computing finds very difficult. The difficulty in factorising large numbers has long ... «Computing, Feb 14»
Plan to force year 12 high school students to study maths
How many kilometres did Kiran travel correct to one decimal point? 17.1; 18.5; 34.7; 68.6. Q.7. Factorise -4m -12. -4 (m+3); -4 (m-12); -4 (m-3) «The Daily Telegraph, Jan 14»
Entangled spies: Why the NSA wants a quantum computer
... aspirations for a machine consisting of two working qubits – far too small to factorise the large numbers that ordinary computers struggle with. «New Scientist, Jan 14»
X&Y, Science Museum, review
Factorise.” And that, dear readers, is when this critic and his rusty, 12 year-old Maths GCSE began to lose track. X&Y is a look at conceptual ... «Telegraph.co.uk, Oct 13»