Number and Algebra
Functions
Geometry & Trigonometry
Statistics & Probability
Calculus
Find the midpoint of the line segment with endpoints (0,0)(0,0)(0,0) and (4,6)(4,6)(4,6).
Calculate the midpoint of the segment joining the points (5,6,7)(5,6,7)(5,6,7) and (9,2,5)(9,2,5)(9,2,5) in 3D.
Determine the midpoint of the segment with endpoints (−3,4)(-3,4)(−3,4) and (5,−2)(5,-2)(5,−2).
Calculate the midpoint of the segment joining (1.2,−3.4)(1.2,-3.4)(1.2,−3.4) and (4.6,2.8)(4.6,2.8)(4.6,2.8).
Find the midpoint of the line segment connecting (−1,2,−3)(-1,2,-3)(−1,2,−3) and (3,−4,5)(3,-4,5)(3,−4,5) in 3D.
Determine the midpoint of the points (1.5,2.5,3.5)(1.5,2.5,3.5)(1.5,2.5,3.5) and (4.5,−1.5,0.5)(4.5,-1.5,0.5)(4.5,−1.5,0.5).
A line segment has endpoints (2k,3k)(2k,3k)(2k,3k) and (k,5k)(k,5k)(k,5k). Find its midpoint in terms of kkk.
Find the midpoint of the segment with endpoints (12,34)(\tfrac12,\tfrac34)(21,43) and (56,78)(\tfrac56,\tfrac78)(65,87).
Find the midpoint of the segment with endpoints (a,b)(a,b)(a,b) and (c,d)(c,d)(c,d).
Calculate the midpoint of (13,23,34)(\tfrac13,\tfrac23,\tfrac34)(31,32,43) and (56,78,910)(\tfrac56,\tfrac78,\tfrac{9}{10})(65,87,109) in 3D.
Determine the midpoint of the line segment joining (x1,y1,z1)(x_1,y_1,z_1)(x1,y1,z1) and (x2,y2,z2)(x_2,y_2,z_2)(x2,y2,z2).
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Question Type 1: For given 2 points, calculating the distance between the two points
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Question Type 3: Calculating the surface area of specific 3D shapes given the parameters