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Pearson Edexcel International GCSE 4MA1/1H Mathematics A PAPER 1H Higher Tier May 2025 Questions Paper + Markscheme
Pearson Edexcel International GCSE 4MA1/1H Mathematics A PAPER 1H Higher Tier May 2025 Questions Paper + Markscheme
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- • 52 pages •
Pearson Edexcel International GCSE 4MA1/1H Mathematics A PAPER 1H Higher Tier May 2025 Questions Paper + Markscheme
Pearson Edexcel International GCSE 4MA1/1FR Mathematics A PAPER 1FR Foundation Tier May 2025 Question paper + Markscheme
International GCSE Mathematics Formulae sheet – Foundation Tier Area of trapezium = 1 2 (a + b)h b a h Volume of prism = area of cross section × length cross section length Volume of cylinder = πr 2 h Curved surface area of cylinder
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International GCSE Mathematics Formulae sheet – Foundation Tier Area of trapezium = 1 2 (a + b)h b a h Volume of prism = area of cross section × length cross section length Volume of cylinder = πr 2 h Curved surface area of cylinder
Pearson Edexcel International GCSE 4MA1/1F Mathematics A PAPER 1F Foundation Tier May 2025 QUestion paper + Markscheme
International GCSE Mathematics Formulae sheet – Foundation Tier Area of trapezium = 1 2 (a + b)h b a h Volume of prism = area of cross section × length cross section length Volume of cylinder = πr 2 h Curved surface area of cylinder = 2πrh r h *P78898A0324* Turn over 3 DO NOT WRITE IN THIS AREA DO NOT WRITE IN THIS AREA DO NOT WRITE IN THIS AREA Answer ALL TWENTY SIX questions. Write your answers in the spaces provided. You must write down all the stage...
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International GCSE Mathematics Formulae sheet – Foundation Tier Area of trapezium = 1 2 (a + b)h b a h Volume of prism = area of cross section × length cross section length Volume of cylinder = πr 2 h Curved surface area of cylinder = 2πrh r h *P78898A0324* Turn over 3 DO NOT WRITE IN THIS AREA DO NOT WRITE IN THIS AREA DO NOT WRITE IN THIS AREA Answer ALL TWENTY SIX questions. Write your answers in the spaces provided. You must write down all the stage...
Pearson Edexcel International GCSE (9–1) 4PH1/1P 4SD0/1P Paper 1P,1PH,2P and 2PH Physics UNIT: 4PH1 Science (Double Award) 4SD0 PAPERS: 1 JUNE 2025 Question paper + Markscheme
Pearson Edexcel International GCSE (9–1) 4PH1/1P 4SD0/1P Paper 1P,1PH,2P and 2PH Physics UNIT: 4PH1 Science (Double Award) 4SD0 PAPERS: 1 JUNE 2025 Question paper + Markscheme
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- Pearson Edexcel International GCSE (9–1) 4PH1/1P 4SD0/1P Physics UNIT: 4PH1 Science (Double Award) 4SD0 PAPER: 1P MAY 2025 Question paper + Markscheme • Exam (elaborations)
- Pearson Edexcel International GCSE (9−1) 4PH1/1PR 4SD0/1PR Physics UNIT: 4PH1 Science (Double Award) 4SD0 PAPER: 1PR MAY 2025 Question paper + Markscheme • Exam (elaborations)
- Pearson Edexcel International GCSE (9–1) 4PH1/2P Physics UNIT: 4PH1 PAPER: 2P JUNE 2025 Question paper + Markscheme • Exam (elaborations)
- Pearson Edexcel International GCSE (9–1) 4PH1/2PR Physics UNIT: 4PH1 PAPER: 2PR JUNE 2025 Question paper + Markscheme • Exam (elaborations)
Pearson Edexcel International GCSE (9–1) 4PH1/1P 4SD0/1P Paper 1P,1PH,2P and 2PH Physics UNIT: 4PH1 Science (Double Award) 4SD0 PAPERS: 1 JUNE 2025 Question paper + Markscheme
Pearson Edexcel International GCSE (9–1) 4BI1/1B 4SD0/1B Paper 1B,1BR,2B, and 2BR Biology UNIT: 4BI1 Science (Double Award) 4SD0 June 2025 Questions paper markscheme
Pearson Edexcel International GCSE (9–1) 4BI1/1B 4SD0/1B Paper 1B,1BR,2B, and 2BR Biology UNIT: 4BI1 Science (Double Award) 4SD0 June 2025 Questions paper markscheme
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- Pearson Edexcel International GCSE (9–1) 4BI1/1B 4SD0/1B Biology UNIT: 4BI1 Science (Double Award) 4SD0 PAPER: 1B MAY 2025 Questions paper + markscheme • Exam (elaborations)
- Pearson Edexcel International GCSE (9–1) 4BI1/1BR 4SD0/1BR Biology UNIT: 4BI1 Science (Double Award) 4SD0 PAPER: 1BR MAY 2025 Question paper + Markscheme • Exam (elaborations)
- Pearson Edexcel International GCSE (9–1) 4BI1/2B Biology UNIT: 4BI1 PAPER: 2B JUNE 2025 Question paper + Markscheme • Exam (elaborations)
- Pearson Edexcel International GCSE (9–1) 4BI1/2BR Biology UNIT: 4BI1 PAPER: 2BR JUNE 2025 Questions paper + Markscheme • Exam (elaborations)
Pearson Edexcel International GCSE (9–1) 4BI1/1B 4SD0/1B Paper 1B,1BR,2B, and 2BR Biology UNIT: 4BI1 Science (Double Award) 4SD0 June 2025 Questions paper markscheme
Pearson Edexcel International GCSE (9–1) 4PH1/2PR Physics UNIT: 4PH1 PAPER: 2PR JUNE 2025 Question paper + Markscheme
FORMULAE You may find the following formulae useful. energy transferred = current×voltage×time E = I×V×t frequency = 1 time period f = 1 T power = work done time taken P = W t power = energy transferred time taken P = E t orbital speed = 2 orbital radius time period π × v = 2 r T × × π (final speed)2 = (initial speed)2 + (2×acceleration×distance moved) v2 = u2 + (2×a×s) pressure×volume = constant p1×V1 = p2×V2 pressure temperature = const...
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FORMULAE You may find the following formulae useful. energy transferred = current×voltage×time E = I×V×t frequency = 1 time period f = 1 T power = work done time taken P = W t power = energy transferred time taken P = E t orbital speed = 2 orbital radius time period π × v = 2 r T × × π (final speed)2 = (initial speed)2 + (2×acceleration×distance moved) v2 = u2 + (2×a×s) pressure×volume = constant p1×V1 = p2×V2 pressure temperature = const...
Pearson Edexcel International GCSE (9–1) 4PH1/2P Physics UNIT: 4PH1 PAPER: 2P JUNE 2025 Question paper + Markscheme
FORMULAE You may find the following formulae useful. energy transferred = current×voltage×time E = I×V×t frequency = 1 time period f = 1 T power = work done time taken P = W t power = energy transferred time taken P = E t orbital speed = 2 orbital radius time period π × v = 2 r T × × π (final speed)2 = (initial speed)2 + (2×acceleration×distance moved) v2 = u2 + (2×a×s) pressure×volume = constant p1×V1 = p2×V2 pressure temperature = const...
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- • 48 pages •
FORMULAE You may find the following formulae useful. energy transferred = current×voltage×time E = I×V×t frequency = 1 time period f = 1 T power = work done time taken P = W t power = energy transferred time taken P = E t orbital speed = 2 orbital radius time period π × v = 2 r T × × π (final speed)2 = (initial speed)2 + (2×acceleration×distance moved) v2 = u2 + (2×a×s) pressure×volume = constant p1×V1 = p2×V2 pressure temperature = const...
Pearson Edexcel International GCSE (9−1) 4PH1/1PR 4SD0/1PR Physics UNIT: 4PH1 Science (Double Award) 4SD0 PAPER: 1PR MAY 2025 Question paper + Markscheme
FORMULAE You may find the following formulae useful. energy transferred = current × voltage × time E = I × V × t frequency = 1 time period f = 1 T power = work done time taken P = W t power = energy transferred time taken P = E t orbital speed = 2 orbital radius time period π × v = 2 × × π r T (final speed)2 = (initial speed)2 + (2 × acceleration × distance moved) v2 = u2 + (2 × a × s) pressure × volume = constant p1 × V1 = p2 × V2 press...
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- • 62 pages •
FORMULAE You may find the following formulae useful. energy transferred = current × voltage × time E = I × V × t frequency = 1 time period f = 1 T power = work done time taken P = W t power = energy transferred time taken P = E t orbital speed = 2 orbital radius time period π × v = 2 × × π r T (final speed)2 = (initial speed)2 + (2 × acceleration × distance moved) v2 = u2 + (2 × a × s) pressure × volume = constant p1 × V1 = p2 × V2 press...
Pearson Edexcel International GCSE (9–1) 4PH1/1P 4SD0/1P Physics UNIT: 4PH1 Science (Double Award) 4SD0 PAPER: 1P MAY 2025 Question paper + Markscheme
FORMULAE You may find the following formulae useful. energy transferred = current×voltage×time E = I×V×t frequency = 1 time period f = 1 T power = work done time taken P = W t power = energy transferred time taken P = E t orbital speed = 2 orbital radius time period π × v = 2 r T × × π (final speed)2 = (initial speed)2 + (2×acceleration×distance moved) v2 = u2 + (2×a×s) pressure×volume = constant p1×V1 = p2×V2 pressure temperature = const...
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- Exam (elaborations)
- • 62 pages •
FORMULAE You may find the following formulae useful. energy transferred = current×voltage×time E = I×V×t frequency = 1 time period f = 1 T power = work done time taken P = W t power = energy transferred time taken P = E t orbital speed = 2 orbital radius time period π × v = 2 r T × × π (final speed)2 = (initial speed)2 + (2×acceleration×distance moved) v2 = u2 + (2×a×s) pressure×volume = constant p1×V1 = p2×V2 pressure temperature = const...
Pearson Edexcel International GCSE (9–1) 4BI1/2BR Biology UNIT: 4BI1 PAPER: 2BR JUNE 2025 Questions paper + Markscheme
Answer ALL questions. Some questions must be answered with a cross in a box . If you change your mind about an answer, put a line through the box and then mark your new answer with a cross . 1 Read the passage below. Use the information in the passage and your own knowledge to answer the questions that follow. Pollination in fruit trees Plants need to be pollinated to produce fruits and seeds. Some plants are self‑pollinated and others are cross‑pollinated. Self‑pollination is usua...
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- • 35 pages •
Answer ALL questions. Some questions must be answered with a cross in a box . If you change your mind about an answer, put a line through the box and then mark your new answer with a cross . 1 Read the passage below. Use the information in the passage and your own knowledge to answer the questions that follow. Pollination in fruit trees Plants need to be pollinated to produce fruits and seeds. Some plants are self‑pollinated and others are cross‑pollinated. Self‑pollination is usua...
68W Module 1 Study Guide | 100% Correct Answers | Verified | Latest 2024 Version
Phase 1 Wisconsin Police Academy Study Guide | 100% Correct Answers | Verified | Latest 2024 Version
68W Module 1 Study Guide | 100% Correct Answers | Verified | Latest 2024 Version
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Edexcel a level economics b question paper 1 june 2023 + mark scheme
A Christmas Carol by Charles Dickens Review Questions with 100% Correct Answers | Latest Version 2024 | Verified