Tuesday, November 15, 2011

Week 46 (14 - 18/11/2011)

Date14/11/2011 (Monday)
Time 8.15 a.m. – 9.25 a.m.
Class6AS
Subject Mathematics T
Topic Continuous Probability Distribution
Learning AreaNormal Distribution
Learning OutcomeStudents should be able to determine the standard deviation of a normal distribution.
Activity
  1. Discussing example 28 (textbook, page 399)
  2. Working out questions 3 and 4 (textbook, page 400)
Teaching AidSTPM Mathematics T (Penerbitan Pelangi, Paper 2)
ReflectionStudents have been able to determine the standard deviation of a normal distribution.


Date14/11/2011 (Monday)
Time11.30 a.m. – 12.40 p.m.
Class6RS
SubjectMathematics T
TopicMatrices
Learning AreaDeterminant of a 2X2 Matrix
Learning OutcomeStudents should be able to determine the determinant of a 2X2 matrix.
Activities
  1. Discussing Example 4.6 (textbook, page 158)
  2. Working out questions 1a and 1b (textbook, page 161)
Teaching AidsAce Ahead STPM Text Mathematics T (Oxford Fajar, Volume 1)
ReflectionStudents have been able to determine the determinant of a 2X2 matrix.


Date15/11/2011 (Tuesday)
Time8.15 a.m. – 9.25 a.m.
Class6RS
SubjectMathematics T
TopicMatrices
Learning AreaDeterminant of a 3X3 Matrix
Learning OutcomeStudents should be able to determine the determinant of a 3X3 matrix.
Activities
  1. Discussing Example 4.9 (textbook, page 161)
  2. Working out question 4a (textbook, page 162)
Teaching AidsAce Ahead STPM Text Mathematics T (Oxford Fajar, Volume 1)
ReflectionStudents have been able to the determinant of a 3X3 matrix.


Date15/11/2011 (Tuesday)
Time 9.45 a.m. – 10.55 a.m.
Class6AS
Subject Mathematics T
Topic Continuous Probability Distribution
Learning AreaNormal Distribution
Learning OutcomeStudents should be able to determine the standard deviation of a normal distribution containing two normal random variables.
Activity
  1. Discussing example 29 (textbook, page 400)
  2. Working out question 1 (textbook, page 404)
Teaching AidSTPM Mathematics T (Penerbitan Pelangi, Paper 2)
ReflectionStudents have been able to determine the standard deviation of a normal distribution containing two normal random variables.


Date16/11/2011 (Wednesday)
Time7.05 a.m. – 8.15 a.m.
Class6RS
SubjectMathematics T
TopicDifferentiation
Learning AreaRates of change
Learning OutcomeStudents should be able to determine the small change of a variable in a function.
Activities
  1. Discussing Example 7.36 (textbook, page 325)
  2. Working out question 7 (2010 STPM Trial Paper 1)
Teaching AidsAce Ahead STPM Text Mathematics T (Oxford Fajar, Volume 1)
ReflectionStudents have been able to determine the small change of a variable in a function.


Date16/11/2011 (Wednesday)
Time 8.50 a.m. – 9.25 a.m.
Class6AS
Subject Mathematics T
Topic Continuous Probability Distribution
Learning AreaNormal Distribution
Learning OutcomeStudents should be able to determine the mean of a binomial distribution using the method of normal distribution approximation.
Activity
  1. Discussing example 35 (textbook, page 407)
  2. Working out questions 1 and 2 (textbook, page 408)
Teaching AidSTPM Mathematics T (Penerbitan Pelangi, Paper 2)
ReflectionStudents have been able to determine the mean of a binomial distribution using the method of normal distribution approximation.

17/11/2011 (Thursday) : Majlis Restu Ilmu

18/11/2011 (Friday) : No teaching and learning (students have been given leave)

Sunday, November 6, 2011

Week 45 (7 - 11/11/2011)

7/11/2011 (Isnin): Cuti Umum Hari Raya Korban

Date8/11/2011 (Tuesday)
Time8.15 a.m. – 9.25 a.m.
Class6RS
SubjectMathematics T
TopicMatrices
Learning AreaDeterminant of a 2X2 Matrix
Learning OutcomeStudents should be able to determine the determinant of a 2X2 matrix.
Activities
  1. Discussing Example 4.6 (textbook, page 158)
  2. Working out questions 1a and 1b (textbook, page 161)
Teaching AidsSTPM Mathematics T Paper 1 (Penerbitan Pelangi)
ReflectionStudents have been able to determine the determinant of a 2X2 matrix in questions 1a and 1b.

9/11/2011 (Rabu): Majlis Penyampaian Hadiah dan Sijil Tahunan

Date10/11/2011 (Thursday)
Time 8.15 a.m. – 9.25 a.m.
Class6AS
Subject Mathematics T
Topic Continuous Probability Distribution
Learning AreaNormal Distribution
Learning OutcomeStudents should be able to determine the mean of a binomial distribution using the method of normal distribution approximation.
Activity
  1. Discussing example 35 (textbook, page 407)
  2. Working out questions 1 and 2 (textbook, page 408)
Teaching AidSTPM Mathematics T Paper 2 (Penerbitan Pelangi)
ReflectionStudents have been able to determine the mean of a binomial distribution using the method of normal distribution approximation in questions 1 and 2.


Date10/11/2011 (Thursday)
Time9.45 a.m. – 10.55 a.m.
Class6RS
SubjectMathematics T
TopicMatrices
Learning AreaInverse of a 2X2 Matrix
Learning OutcomeStudents should be able to determine the inverse of a 2X2 matrix.
Activities
  1. Discussing Example 4.12 (textbook, page 164)
  2. Working out questions 1a and 1b (textbook, page 165)
Teaching AidsSTPM Mathematics T Paper 1 (Penerbitan Pelangi)
ReflectionStudents have been able to determine the inverse of a 2X2 matrix in questions 1a and 1b.


Date11/11/2011 (Friday)
Time 8.15 a.m. – 9.25 a.m.
Class6AS
Subject Mathematics T
Topic Polynomials
Learning AreaPolynomials
Learning OutcomeStudents should be able to determine the coefficient of a term in a polynomial.
Activity
  1. Discussing example 2.5 (textbook, page 41)
  2. Working out questions 3a and 3b (textbook, page 42)
Teaching AidSTPM Mathematics T Paper 1 (Penerbitan Pelangi)
ReflectionStudents have been able to determine the coefficient of a term in a polynomial in questions 3a and 3b.


Date11/11/2011 (Friday)
Time9.40 a.m. – 10.40 a.m.
Class6RS
SubjectMathematics T
TopicMatrices
Learning AreaInverse of a 3X3 Matrix
Learning OutcomeStudents should be able to determine the inverse of a 3X3 matrix.
Activities
  1. Discussing Example 4.16 (textbook, page 168)
  2. Working out question 1 (textbook, page 169)
Teaching AidsSTPM Mathematics T Paper 1 (Penerbitan Pelangi)
ReflectionStudents have been able to determine the inverse of a 3X3 matrix in question no. 1.