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Sequences -nth term, common difference, examples and worksheet
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Sequences -nth term, common difference, examples and worksheet

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Section A: Step 1: Find the term-by-term difference. For the sequence 7, 10, 13, 16, 19, … the term-by-term difference is 3. Step 2: Use the term-by-term difference to make an estimate for the nth term. If the nth term was 𝟑𝟑𝟑 then the sequence would be 3, 6, 9, 12, 15, … Step 3: Compare the estimate and work out the difference between the sequences generated. Use the difference to find the formula for the nth term. Section B: For the nth term 𝟑𝟑𝟑 + 1, give the first 5 terms and the 90th term of the sequence Step 1: Find the first five terms by substituting 𝟑 = 1, 2, 3, 4, 5 into the nth term formula. Find the 90th term by substituting 𝟑 = 90 into the nth term formula.
Algebra - Word problems; Solved by simultaneous equations - Challenging
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Algebra - Word problems; Solved by simultaneous equations - Challenging

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This resource entails a worksheet of challenging word problems in Algebra and a mark scheme guiding you step by step on how to solve these questions. By engaging in the provided algebraic problems, learners will gain a comprehensive understanding of various algebraic concepts and their practical applications. Key takeaways include: Simultaneous Equations: Participants will master the skill of setting up and solving systems of simultaneous equations, a fundamental technique in algebra essential for tackling problems involving multiple variables. Linear Equations: The problems involving distances, speeds, and currents provide insight into solving linear equations, offering a practical understanding of how these equations model real-world scenarios. Quadratic Equations: The application of quadratic equations in determining the equation of a curve demonstrates their relevance in describing nonlinear relationships, showcasing their importance beyond basic linear problem-solving. Data Interpretation: Learners will enhance their ability to interpret and analyze data embedded in word problems, translating real-world situations into mathematical expressions and equations. Problem-Solving Skills: These problems foster critical thinking and problem-solving skills, as participants must carefully analyze each scenario, identify relevant variables, and apply appropriate algebraic techniques to arrive at meaningful solutions. Practical Algebraic Applications: The problems cover diverse scenarios, including age-related puzzles, money calculations, and speed-distance-time relationships, providing learners with a practical understanding of how algebra is utilized in everyday situations. Overall, working through these problems will not only reinforce foundational algebraic concepts but also equip learners with the analytical skills necessary to approach complex, real-world challenges with confidence.