Enter your response to the following in "Comments".
Pages
- [Resource] Real Numbers
- [Resource] Significant Figures
- [Resource] Distributive Law
- [Resource] Algebra (1)
- [Resource] Algebra (2)
- [Resource] Algebra (3) Factorisation
- [Resource] Graphs (1) Plotting
- [Resource] Graphs (2) Gradient, Intercepts
- [Resource] Graphs (3) Sketching
- [Resource] Graphs (4) Determine Equations
- [Resource] Construction (1) Lines
- [Resource] Construction (2) Triangles
- [Resource] Construction (3) Hologram
- [Resource] Mensuration
- [Resource] Pythagoras Theorem
Friday, 31 January 2020
Food for Thought: Rational Numbers on a Number Line?
(2-to-3 Activity) Number Lines - Common Errors
Are these errors obvious to you?
Compare this with what you have done...
Now, it's your TURN....
Click HERE to access the form.
Compare this with what you have done...
Now, it's your TURN....
Click HERE to access the form.
Thursday, 23 January 2020
[Homework] 22 January - Consolidation & Preparation
A summary of homework assigned:
1. Google Classroom
1. Google Classroom
- [HW2] Selected Questions from Textbook Chapter 1
- Focus: Prime Numbers, HCF, LCM
- Estimated duration: 30 minutes
- Follow instructions; refer to template
- To be submitted on 29 January 2020 (WED) during Maths lesson
2. Maths Blog/ Padlet
- Review Exercise 1 from Workbook Chapter 1
- This is to consolidate what you learnt in Chapter 1
- Read the instructions in the post below
- Estimated duration (for 2 questions): 10 minutes
- Complete before 27 January 2020 virtually
3. Preparation for next Chapter
You do not need to do all before the next lesson... do pace yourself to do the following in the next 2 weeks
- Read up textbook Chapter 2
- Refer to SLS materials
- Watch the clips in the Blog page
4. Complete the following if you have not done it on 20 January 2020
[HW] Workbook Chap 1 Review Exercise 1 (p15-p17) - 2 Questions of your choice
This is an exercise to consolidate what you learnt in this chapter (to-date).
Pace yourself to do these questions in the workbook.
It may take up to 2 hours if you were to complete the entire exercise.
Advice: Review and revise what you learnt in this topic (go through the notes) and blog posts.
As a contributing member of the class, you will submit answers to 2 questions (your choice) to the padlet before next MONDAY (27 Jan). With this, we can learn from each other how we approach certain questions and present our answers. You may also ask questions or provide feedback to your peers. (remember to observe 4Rs here).
Feedback will be provided to you after the public holidays.
LINK
Pace yourself to do these questions in the workbook.
It may take up to 2 hours if you were to complete the entire exercise.
Advice: Review and revise what you learnt in this topic (go through the notes) and blog posts.
As a contributing member of the class, you will submit answers to 2 questions (your choice) to the padlet before next MONDAY (27 Jan). With this, we can learn from each other how we approach certain questions and present our answers. You may also ask questions or provide feedback to your peers. (remember to observe 4Rs here).
Feedback will be provided to you after the public holidays.
LINK
Labels:
HCF,
LCM,
Prime Factorisation,
Prime Numbers,
Roots
Wednesday, 22 January 2020
Tuesday, 21 January 2020
[Summarising] Techniques to find HCF, LCM
These 2 clips summarises how we can find HCF and LCM of 2 or more numbers
Clip 1: Observe what are the factors 'circled' in each case
When we look for Highest common factor, technically, we are looking for the 'lowest' power.
For the Lowest common multiple, technically, we multiply the prime factors with the highest power.
Clip 2: Some of us learnt to find the HCF and LCM using the division method.
The clip attempts to show how these 2 methods (i.e. Long Division method and Index Notation Method) are related to each other - the same thinking behind, though the representation looks different.
Clip 1: Observe what are the factors 'circled' in each case
When we look for Highest common factor, technically, we are looking for the 'lowest' power.
For the Lowest common multiple, technically, we multiply the prime factors with the highest power.
Clip 2: Some of us learnt to find the HCF and LCM using the division method.
The clip attempts to show how these 2 methods (i.e. Long Division method and Index Notation Method) are related to each other - the same thinking behind, though the representation looks different.
Monday, 20 January 2020
Challenging Question: Roots
Well done - presentation of working is clear and systematic
"-3" for the class time
[HW] HCF and LCM - What's the deciding factor?
[Task was first assigned on 20 January 2020]
[For discussion on 29 January 2020 WED]
The task will take approximately 10 minutes to complete.
To be completed by 20 January 2020 Monday (5pm)
LINK
Click HERE to view responses
[For discussion on 29 January 2020 WED]
The task will take approximately 10 minutes to complete.
To be completed by 20 January 2020 Monday (5pm)
LINK
Click HERE to view responses
[Optional] Challenging Question: About ROOTS
Attempt the following challenging that question
worths "-3" points if it is correctly answered with clear and proper presentation.
Post your answer as a blog post with heading "Challenging Question: Roots"
Saturday, 18 January 2020
[Prime Factorisation] Watching it. Doing it
Prime factorisation is the process of expressing a composite number as the product of prime factors.
There are 2 methods to do this:
(a) Repeated Division
(b) Factor Tree
More examples
There are 2 methods to do this:
(a) Repeated Division
(b) Factor Tree
More examples
Example 1:
Example 2:
[Prime Factorisation] Watching it. Doing it
Prime factorisation is the process of expressing a composite number as the product of prime factors.
There are 2 methods to do this:
(a) Repeated Division
(b) Factor Tree
More examples
There are 2 methods to do this:
(a) Repeated Division
(b) Factor Tree
More examples
Example 1:
Example 2:
Friday, 17 January 2020
[Homework] 17 January - Consolidation
A summary of the Homework assigned today:
1. Attempt the one-question task on Prime Factorisation (Padlet) - see the post below. It should not take more than 5 minutes
2. Attempt the written work assigned in the Google Classroom (refer to template for presentation)
3. Attempt the post below - which checks your understanding of the concepts learnt this week.
4. Prime Number activity
5. Preparation of next week's lesson
Read up about HCF and LCM in the textbook
1. Attempt the one-question task on Prime Factorisation (Padlet) - see the post below. It should not take more than 5 minutes
- [HW] Prime Factorisation (using LONG DIVISION method) (Padlet)
2. Attempt the written work assigned in the Google Classroom (refer to template for presentation)
3. Attempt the post below - which checks your understanding of the concepts learnt this week.
4. Prime Number activity
5. Preparation of next week's lesson
Read up about HCF and LCM in the textbook
[HW] Prime Factorisation (using LONG DIVISION method)
As shared in class, please complete the task latest by tomorrow (18 Jan) so that feedback could be given to you before you attempt the written work that was posted in the Google Classroom.
Estimated time: 5 minutes
LINK
Estimated time: 5 minutes
LINK
[HW] Taking a closer look at Factors & Multiples
The task will take approximately 20 minutes to complete.
To be completed by 20 January 2020 Monday (9am)
LINK to form
To be completed by 20 January 2020 Monday (9am)
LINK to form
[HW] Prime Numbers and non-Prime Numbers
TASK 1: Attempt the activity in Textbook 1A
Estimated time: 10 minutes
Task 2: Why NOT PRIME?
Estimated time: 5 min
Click HERE to attempt the task
Click HERE to view submission
Estimated time: 10 minutes
Task 2: Why NOT PRIME?
Estimated time: 5 min
Click HERE to attempt the task
Click HERE to view submission
[Going a bit beyond...] Sieve of Eratosthenes
In search of PRIME Numbers.... using technology
Reference: Textbook (p4)
You are going to use an applet to help you surface all the prime numbers between 1 to 100.
Click HERE to access the applet.
As you follow the steps to use the applet to 'sieve' the prime numbers.
Think:
Why is this method considered the most efficient method to find prime numbers?
Enter your thoughts in COMMENTS
Remember to sign off with your Group number
- A reasonably well-explained answer can contribute to "-2" to class time :)
Reference: Textbook (p4)
You are going to use an applet to help you surface all the prime numbers between 1 to 100.
Click HERE to access the applet.
As you follow the steps to use the applet to 'sieve' the prime numbers.
Think:
Why is this method considered the most efficient method to find prime numbers?
Enter your thoughts in COMMENTS
Remember to sign off with your Group number
- A reasonably well-explained answer can contribute to "-2" to class time :)
Quick Glimpse: The Number System
Below is a very much simplified representation of the various number families and their relationships. We will discuss further when we start the topic on Real Numbers.
Broadly...
The relationship between the numbers system is as follows:
Amongst the 4 types of numbers:
Broadly...
The relationship between the numbers system is as follows:
Amongst the 4 types of numbers:
- NATURAL NUMBERS is the smallest of all - starts from 1, followed by 2, 3, 4, 5, ... basically, it's positive integers
- INTEGERS is made up by negative integers (-1, -2, -3, .... ), zero (0) and positive integers (1, 2, 3, ...)
- RATIONAL NUMBERS are numbers that can be expressed as a fraction a/b such that both a and b are integers and b is non-zero. Integers and natural numbers are rational numbers since we can express them with denominator = 1.
- REAL NUMBERS are numbers include natural numbers, integers and rational numbers. It also includes numbers that cannot be expressed as a fraction, e.g. pi, square root of 2
Note: Whole numbers and Complex numbers are not mentioned above.
[Extension] Going Beyond Real... Imaginary Numbers
Today, we discussed the Real Number System, which the relationship of the families of numbers can be represented in a Venn Diagram.
What's beyond the REAL Number system?
The Imaginary Numbers! [which is not in the "O" level syllabus]
Some of you may be interested to find out more about this...
This will shade some light to the 'mysteries' when we start to discuss "Roots" of numbers
What's beyond the REAL Number system?
The Imaginary Numbers! [which is not in the "O" level syllabus]
Some of you may be interested to find out more about this...
This will shade some light to the 'mysteries' when we start to discuss "Roots" of numbers
Tuesday, 14 January 2020
[Preparation] Unit 1 Primes, HCF, LCM, Number Systems
Resources in SLS of the following topics have been assigned to you (from 14 Jan to 31 Jan)
With reference to the Scheme of Work (refer to Google Classroom),
If you spot any error in the answers to the QUIZ, you can screenshot the error, explain why the answer is incorrect and email to me.
With reference to the Scheme of Work (refer to Google Classroom),
- Pace yourself when you attempt the topics
- Do not attempt all in one go
- You can also use the resources as a summary or recap after the lesson/ topic, too.
If you spot any error in the answers to the QUIZ, you can screenshot the error, explain why the answer is incorrect and email to me.
Monday, 13 January 2020
How would I contribute to how my Maths classroom look like...
Monday, 6 January 2020
TED 1: Is math discovered or invented? - Jeff Dekofsky
What is "Mathematics" to you?
What do you associate "Mathematics" with?
Share your thoughts in "Comments"
What do you associate "Mathematics" with?
Share your thoughts in "Comments"
TED 2: Math is the hidden secret to understanding the world by| Roger Antonsen
Listen to the passionate sharing about the existence of this "Language".
What kind of "Mathematics" do you see in your everyday encounter?
Describe in a couple of sentences in "Comments".
What kind of "Mathematics" do you see in your everyday encounter?
Describe in a couple of sentences in "Comments".
TED 3: Why Can't You Divide by Zero?
Have you wonder why we do not "divide" any number by Zero?
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