3b:["$","div",null,{"className":"flex w-full","children":[["$","div",null,{"className":"relative","children":[["$","div",null,{"className":"","children":[["$","$L5e",null,{"className":"mb-8","variant":"sm"}],["$","$L5f",null,{"topicId":63057,"topicTitle":"Question Type 2: For given 2 points, calculating the midpoint between the two points"}],["$","div",null,{"className":"space-y-8","children":[["$","$L60","0cbb94dc-da46-47bb-8c4d-4aaac0429e07",{"num":1,"question":{"id":"0cbb94dc-da46-47bb-8c4d-4aaac0429e07","version":3,"status":"published","createdAt":"$D2025-12-08T23:49:27.910Z","specification":"","questionType":"LA","level":null,"paper":null,"subjectId":297,"allContent":null,"hidden":false,"difficulty":null,"difficultyNormalized":null,"examStyle":false,"copyrightReference":false,"isCopyrightClean":null,"optionCount":0,"partCount":1,"quarantined":false,"examBoardId":null,"isStaging":false,"isNew":false,"questionRush":null,"questionSet":"STUDENT","category":"BOOTCAMP","labelId":null,"metadata":null,"explanation":null,"parts":[{"id":1077925,"content":"Find the midpoint of the line segment connecting $(-1, 2, -3)$ and $(3, -4, 5)$ in 3D.","order":0,"markscheme":"- State the midpoint formula:\n\n$$M = \\left(\\frac{x_1+x_2}{2}, \\frac{y_1+y_2}{2}, \\frac{z_1+z_2}{2}\\right)$$\n\n- Attempt to substitute coordinates into the formula: $\\left(\\frac{-1+3}{2}, \\frac{2-4}{2}, \\frac{-3+5}{2}\\right)$ M1\n\n- $(1, -1, 1)$ A1\n\n2 marks total","marks":2,"label_id":null,"rubric_id":null,"explanation":null}],"options":[],"currentRevisionId":1462407,"hasVideo":false,"validationStatus":"validated"}}],["$","$L60","1c3b4eb2-9476-4ee1-85e6-8788219e585d",{"num":2,"question":{"id":"1c3b4eb2-9476-4ee1-85e6-8788219e585d","version":3,"status":"published","createdAt":"$D2025-12-18T01:05:53.733Z","specification":"","questionType":"LA","level":null,"paper":null,"subjectId":297,"allContent":null,"hidden":false,"difficulty":null,"difficultyNormalized":null,"examStyle":false,"copyrightReference":false,"isCopyrightClean":null,"optionCount":0,"partCount":1,"quarantined":false,"examBoardId":null,"isStaging":false,"isNew":false,"questionRush":null,"questionSet":"STUDENT","category":"BOOTCAMP","labelId":null,"metadata":null,"explanation":null,"parts":[{"id":1100566,"content":"Determine the midpoint of the line segment joining $(x_1, y_1, z_1)$ and $(x_2, y_2, z_2)$.","order":0,"markscheme":"- Write down the 3D midpoint formula: $M = \\left( \\frac{x_A + x_B}{2}, \\frac{y_A + y_B}{2}, \\frac{z_A + z_B}{2} \\right)$ M1\n- Substitute the given symbols $(x_1, y_1, z_1)$ and $(x_2, y_2, z_2)$\n- Conclude the midpoint is $\\left( \\frac{x_1 + x_2}{2}, \\frac{y_1 + y_2}{2}, \\frac{z_1 + z_2}{2} \\right)$ A1\n\n2 marks total","marks":2,"label_id":null,"rubric_id":null,"explanation":null}],"options":[],"currentRevisionId":1481336,"hasVideo":false,"validationStatus":"validated"}}],["$","$L60","1e0f5c73-486f-4075-91dc-ffc58dfb1404",{"num":3,"question":{"id":"1e0f5c73-486f-4075-91dc-ffc58dfb1404","version":3,"status":"published","createdAt":"$D2025-12-08T23:49:55.358Z","specification":"","questionType":"LA","level":null,"paper":null,"subjectId":297,"allContent":null,"hidden":false,"difficulty":null,"difficultyNormalized":null,"examStyle":false,"copyrightReference":false,"isCopyrightClean":null,"optionCount":0,"partCount":1,"quarantined":false,"examBoardId":null,"isStaging":false,"isNew":false,"questionRush":null,"questionSet":"STUDENT","category":"BOOTCAMP","labelId":null,"metadata":null,"explanation":null,"parts":[{"id":1078000,"content":"Find the midpoint of the segment with endpoints $(\\frac{1}{2},\\frac{3}{4})$ and $(\\frac{5}{6},\\frac{7}{8})$.","order":0,"markscheme":"- State the midpoint formula:\n $$ M\\left(\\frac{x_1+x_2}{2},\\frac{y_1+y_2}{2}\\right) $$\n\n- Identify the coordinates: $x_1=\\frac{1}{2}$, $y_1=\\frac{3}{4}$, $x_2=\\frac{5}{6}$, $y_2=\\frac{7}{8}$\n\n- Substitute the values into the formula: M1\n $$ M\\left(\\frac{\\frac{1}{2}+\\frac{5}{6}}{2}, \\frac{\\frac{3}{4}+\\frac{7}{8}}{2}\\right) $$\n\n- Calculate the sum of the fractions: A1\n $$ \\frac{1}{2}+\\frac{5}{6}=\\frac{3+5}{6}=\\frac{4}{3}, \\quad \\frac{3}{4}+\\frac{7}{8}=\\frac{6+7}{8}=\\frac{13}{8} $$\n\n- Calculate the final coordinates: A1\n $$ \\left(\\frac{4/3}{2},\\frac{13/8}{2}\\right) = \\left(\\frac{2}{3},\\frac{13}{16}\\right) $$\n\n3 marks total","marks":3,"label_id":null,"rubric_id":null,"explanation":{"methods":[{"id":"midpoint_formula","label":"Average of Coordinates","steps":[{"type":"text","order":0,"title":"State the midpoint formula","content":"To find the midpoint using the **Average of Coordinates** approach, we calculate the average of the $x$-coordinates and the average of the $y$-coordinates. The formula is:\n\n$$ M = \\left(\\frac{x_1+x_2}{2}, \\frac{y_1+y_2}{2}\\right) $$"},{"type":"text","order":1,"title":"Substitute the coordinates","content":"Identify your endpoints from the question as $(x_1, y_1)$ and $(x_2, y_2)$:\n\n$$ x_1=\\frac{1}{2}, \\quad y_1=\\frac{3}{4} $$\n$$ x_2=\\frac{5}{6}, \\quad y_2=\\frac{7}{8} $$\n\nSubstitute these into the formula to earn the method mark:\n\n$$ M\\left(\\frac{\\frac{1}{2}+\\frac{5}{6}}{2}, \\frac{\\frac{3}{4}+\\frac{7}{8}}{2}\\right) $$","highlights":[{"text":"(\\frac{1}{2},\\frac{3}{4})","location":"specification"},{"text":"(\\frac{5}{6},\\frac{7}{8})","location":"specification"}]},{"type":"text","order":2,"title":"Calculate the x-coordinate","content":"First, find the average of the $x$-coordinates. We need a common denominator to add the fractions in the numerator:\n\n$$ \\frac{1}{2} + \\frac{5}{6} = \\frac{3}{6} + \\frac{5}{6} = \\frac{8}{6} = \\frac{4}{3} $$\n\nNow, divide by 2:\n\n$$ x_m = \\frac{4/3}{2} = \\frac{4}{3 \\times 2} = \\frac{4}{6} = \\frac{2}{3} $$","calculator":[{"gdc":{"expression":"(1/2 + 5/6) / 2","instructions":"Enter the expression (1/2 + 5/6) / 2"},"ti84":{"expression":"(1/2 + 5/6) / 2","instructions":"Enter the expression (1/2 + 5/6) / 2"},"desmos":{"expression":"(1/2 + 5/6) / 2","instructions":"Type (1/2 + 5/6) / 2"},"description":"Verify the x-coordinate calculation"}]},{"type":"text","order":3,"title":"Calculate the y-coordinate","content":"Next, find the average of the $y$-coordinates. Find a common denominator of 8:\n\n$$ \\frac{3}{4} + \\frac{7}{8} = \\frac{6}{8} + \\frac{7}{8} = \\frac{13}{8} $$\n\nNow, divide by 2:\n\n$$ y_m = \\frac{13/8}{2} = \\frac{13}{8 \\times 2} = \\frac{13}{16} $$","calculator":[{"gdc":{"expression":"(3/4 + 7/8) / 2","instructions":"Enter the expression (3/4 + 7/8) / 2"},"ti84":{"expression":"(3/4 + 7/8) / 2","instructions":"Enter the expression (3/4 + 7/8) / 2"},"desmos":{"expression":"(3/4 + 7/8) / 2","instructions":"Type (3/4 + 7/8) / 2"},"description":"Verify the y-coordinate calculation"}]},{"type":"text","order":4,"title":"State the final midpoint","content":"Combine the calculated coordinates to give the final midpoint:\n\n$$ M\\left(\\frac{2}{3}, \\frac{13}{16}\\right) $$"}]},{"id":"displacement_method","label":"Half-Displacement Method","steps":[{"type":"text","order":0,"title":"Identify coordinates and method","content":"First, we identify our starting point $(x_1, y_1)$ and ending point $(x_2, y_2)$ from the question.\n\nStart Point: $P_1 = \\left(\\frac{1}{2}, \\frac{3}{4}\\right)$\nEnd Point: $P_2 = \\left(\\frac{5}{6}, \\frac{7}{8}\\right)$\n\nWe will find the midpoint using the **Half-Displacement Method**: finding the total change (displacement), dividing it by 2, and adding that half-step to the starting coordinate.","highlights":[{"text":"endpoints (\\frac{1}{2},\\frac{3}{4}) and (\\frac{5}{6},\\frac{7}{8})","location":"specification"}]},{"type":"text","order":1,"title":"Calculate x-midpoint","content":"To find the x-coordinate of the midpoint ($x_m$), we calculate the displacement from $x_1$ to $x_2$, halve it, and add it back to $x_1$.\n\n$$\\begin{aligned} \\text{Displacement}_x &= x_2 - x_1 \\\\ &= \\frac{5}{6} - \\frac{1}{2} = \\frac{5}{6} - \\frac{3}{6} = \\frac{2}{6} = \\frac{1}{3} \\\\ \\\\ \\text{Half-Displacement}_x &= \\frac{1}{2} \\times \\frac{1}{3} = \\frac{1}{6} \\\\ \\\\ x_m &= x_1 + \\text{Half-Displacement}_x \\\\ &= \\frac{1}{2} + \\frac{1}{6} = \\frac{3}{6} + \\frac{1}{6} = \\frac{4}{6} = \\frac{2}{3} \\end{aligned}$$","calculator":[{"gdc":{"expression":"1/2 + (5/6 - 1/2)/2","instructions":"Calculate the midpoint expression and use the fraction tool."},"ti84":{"expression":"1/2 + (5/6 - 1/2)/2 >Frac","instructions":"Enter 1/2 + (5/6 - 1/2)/2 to find the midpoint value directly, then convert to fraction."},"desmos":{"expression":"1/2 + (5/6 - 1/2)/2","instructions":"Type the expression to see the decimal and fraction result."},"description":"Calculate fractions for x-coordinate"}]},{"type":"text","order":2,"title":"Calculate y-midpoint","content":"We apply the same logic to the y-coordinate. We find the difference between $y_2$ and $y_1$, take half of that difference, and add it to $y_1$.\n\n$$\\begin{aligned} \\text{Displacement}_y &= y_2 - y_1 \\\\ &= \\frac{7}{8} - \\frac{3}{4} = \\frac{7}{8} - \\frac{6}{8} = \\frac{1}{8} \\\\ \\\\ \\text{Half-Displacement}_y &= \\frac{1}{2} \\times \\frac{1}{8} = \\frac{1}{16} \\\\ \\\\ y_m &= y_1 + \\text{Half-Displacement}_y \\\\ &= \\frac{3}{4} + \\frac{1}{16} = \\frac{12}{16} + \\frac{1}{16} = \\frac{13}{16} \\end{aligned}$$","calculator":[{"gdc":{"expression":"3/4 + (7/8 - 3/4)/2","instructions":"Calculate the expression and convert to fraction."},"ti84":{"expression":"3/4 + (7/8 - 3/4)/2 >Frac","instructions":"Enter 3/4 + (7/8 - 3/4)/2 and convert to fraction."},"desmos":{"expression":"3/4 + (7/8 - 3/4)/2","instructions":"Type the expression."},"description":"Calculate fractions for y-coordinate"}]},{"type":"text","order":3,"title":"State final answer","content":"Combining the calculated coordinates, the midpoint is:\n\n$$ \\text{Midpoint} = \\left( \\frac{2}{3}, \\frac{13}{16} \\right) $$"}]}],"generatedAt":"2025-12-18T22:24:47.282Z","modelVersion":"gemini-3-pro-preview","explanationVersion":"v2"}}],"options":[],"currentRevisionId":1462466,"hasVideo":false,"validationStatus":"validated"}}],"$L61","$L62","$L63","$L64","$L65","$L66","$L67","$L68"]}],"$L69"]}],"$L6a"]}],"$L6b"]}]

Question Type 2: For given 2 points, calculating the midpoint between the two points Exercises