习题练习

[{"id":642,"subject":"数学","grade":"初一","stage":"小学","type":"填空题","content":"在一次校园植物观察活动中，某学生记录了5种植物的高度（单位：厘米），分别为12、15、18、15、20。这组数据的中位数是____。","answer":"15","explanation":"首先将这组数据按从小到大的顺序排列：12、15、15、18、20。由于数据个数为5（奇数个），中位数就是位于中间位置的数，即第3个数。第3个数是15，因此这组数据的中位数是15。本题考查的是数据的收集、整理与描述中的中位数概念，属于七年级数学课程内容。","solution_steps":null,"common_mistakes":null,"learning_suggestions":null,"difficulty":"简单","points":1,"is_active":1,"created_at":"2025-12-29 22:08:56","updated_at":"2025-12-30 11:11:27","sort_order":0,"source":null,"tags":null,"analysis":null,"knowledge_point":null,"difficulty_coefficient":null,"suggested_time":null,"accuracy_rate":null,"usage_count":0,"last_used":null,"view_count":0,"favorite_count":0,"options":[]},{"id":2422,"subject":"数学","grade":"八年级","stage":"初中","type":"选择题","content":"某公园计划修建一个菱形花坛，设计师提供了以下四个方案。已知菱形的两条对角线长度分别为 d₁ 和 d₂，且满足 d₁ = 2√3 米，d₂ = 6 米。为了确保花坛结构稳定，施工方需要验证该菱形是否可以被分割成两个全等的等边三角形。以下说法正确的是：","answer":"C","explanation":"首先，根据菱形性质，对角线互相垂直且平分。已知 d₁ = 2√3 米，d₂ = 6 米，则每条对角线的一半分别为 √3 米和 3 米。利用勾股定理可求出菱形边长：边长 = √[(√3)² + 3²] = √(3 + 9) = √12 = 2√3 米。若该菱形能分割成两个等边三角形，则每个三角形的三边都应相等，即边长应等于 2√3 米，且每个内角为60°。但通过计算一个内角：tan(θ\/2) = (√3)\/3 = 1\/√3，得 θ\/2 = 30°，所以 θ = 60°，看似符合。然而，菱形被一条对角线分成的两个三角形是全等等腰三角形，只有当边长等于对角线一半构成的直角三角形斜边，且所有边相等时才为等边。此处虽然一个角为60°，但其余弦定理验证：若为等边三角形，三边均为 2√3，但由对角线分割出的三角形两边为 2√3，底边为 d₁ = 2√3，看似可能，但实际另一条对角线为6米，意味着另一方向的跨度不满足等边条件。更关键的是，若两个等边三角形组成菱形，则对角线比应为 √3 : 1，而本题中 d₁:d₂ = 2√3 : 6 = √3 : 3 ≠ √3 : 1，矛盾。因此，尽管部分角度为60°，整体无法构成两个全等等边三角形。正确判断应基于边长与结构一致性，故选C。","solution_steps":"","common_mistakes":"","learning_suggestions":"","difficulty":"中等","points":1,"is_active":1,"created_at":"2026-01-10 12:35:01","updated_at":"2026-01-10 12:35:01","sort_order":0,"source":null,"tags":null,"analysis":null,"knowledge_point":null,"difficulty_coefficient":null,"suggested_time":null,"accuracy_rate":null,"usage_count":0,"last_used":null,"view_count":0,"favorite_count":0,"options":[{"id":"A","content":"可以分割成两个全等的等边三角形，因为对角线互相垂直且平分","is_correct":0},{"id":"B","content":"可以分割成两个全等的等边三角形，因为每条边长都等于 √3 米","is_correct":0},{"id":"C","content":"不能分割成两个全等的等边三角形，因为计算出的边长与等边三角形要求不符","is_correct":1},{"id":"D","content":"不能分割成两个全等的等边三角形，因为菱形的内角不是60°","is_correct":0}]},{"id":481,"subject":"数学","grade":"初一","stage":"初中","type":"选择题","content":"某学生调查了班级同学每天使用手机的时间（单位：小时），并将数据整理成如下频数分布表：\n\n| 使用时间区间 | 频数 |\n|--------------|------|\n| 0 ≤ t < 1 | 5 |\n| 1 ≤ t < 2 | 8 |\n| 2 ≤ t < 3 | 12 |\n| 3 ≤ t < 4 | 10 |\n| 4 ≤ t < 5 | 5 |\n\n则该班级参与调查的学生总人数是多少？","answer":"C","explanation":"要计算参与调查的学生总人数，只需将各组的频数相加。即：5 + 8 + 12 + 10 + 5 = 40。因此，班级中共有40名学生参与了调查。本题考查的是数据的收集与整理中对频数分布表的理解和应用，属于简单难度的基础题。","solution_steps":null,"common_mistakes":null,"learning_suggestions":null,"difficulty":"简单","points":1,"is_active":1,"created_at":"2025-12-29 17:58:34","updated_at":"2025-12-30 11:11:27","sort_order":0,"source":null,"tags":null,"analysis":null,"knowledge_point":null,"difficulty_coefficient":null,"suggested_time":null,"accuracy_rate":null,"usage_count":0,"last_used":null,"view_count":0,"favorite_count":0,"options":[{"id":"A","content":"35","is_correct":0},{"id":"B","content":"38","is_correct":0},{"id":"C","content":"40","is_correct":1},{"id":"D","content":"42","is_correct":0}]},{"id":2454,"subject":"数学","grade":"八年级","stage":"初中","type":"填空题","content":"在一次校园绿化项目中，工人师傅用一根长为10米的绳子围成一个直角三角形花坛，其中一条直角边比另一条短2米。设较短的直角边为x米，则可列方程为____，解得较短的直角边长为____米。","answer":"x² + (x + 2)² = 10²；6","explanation":"根据勾股定理，两直角边平方和等于斜边平方。较短边为x，较长边为x+2，斜边为10，列方程x² + (x+2)² = 100，解得x=6（舍负）。","solution_steps":"","common_mistakes":"","learning_suggestions":"","difficulty":"中等","points":1,"is_active":1,"created_at":"2026-01-10 13:58:36","updated_at":"2026-01-10 13:58:36","sort_order":0,"source":null,"tags":null,"analysis":null,"knowledge_point":null,"difficulty_coefficient":null,"suggested_time":null,"accuracy_rate":null,"usage_count":0,"last_used":null,"view_count":0,"favorite_count":0,"options":[]},{"id":1842,"subject":"数学","grade":"八年级","stage":"初中","type":"选择题","content":"如图，在平面直角坐标系中，点 A(0, 0)、B(4, 0)、C(2, 2√3) 构成一个三角形。若将该三角形沿某条直线折叠后，点 A 恰好与点 C 重合，则这条折痕所在的直线方程是：","answer":"D","explanation":"本题考查轴对称与一次函数的综合应用。折痕是点 A 与点 C 的对称轴，即线段 AC 的垂直平分线。首先计算 AC 的中点坐标：A(0,0)，C(2, 2√3)，中点 M 为 ((0+2)\/2, (0+2√3)\/2) = (1, √3)。再求 AC 的斜率：k_AC = (2√3 - 0)\/(2 - 0) = √3。因此，折痕（垂直平分线）的斜率为其负倒数，即 -1\/√3 = -√3\/3。利用点斜式方程，过点 M(1, √3)，斜率为 -√3\/3，得：y - √3 = (-√3\/3)(x - 1)。化简得：y = (-√3\/3)x + √3\/3 + √3 = (-√3\/3)x + (4√3\/3)。因此正确选项为 D。","solution_steps":null,"common_mistakes":null,"learning_suggestions":null,"difficulty":"中等","points":1,"is_active":1,"created_at":"2026-01-06 16:52:54","updated_at":"2026-01-06 16:52:54","sort_order":0,"source":null,"tags":null,"analysis":null,"knowledge_point":null,"difficulty_coefficient":null,"suggested_time":null,"accuracy_rate":null,"usage_count":0,"last_used":null,"view_count":0,"favorite_count":0,"options":[{"id":"A","content":"y = √3 x","is_correct":0},{"id":"B","content":"y = -√3 x + 2√3","is_correct":0},{"id":"C","content":"y = (√3 \/ 3)x + (4√3 \/ 3)","is_correct":0},{"id":"D","content":"y = - (√3 \/ 3)x + (4√3 \/ 3)","is_correct":1}]},{"id":2761,"subject":"历史","grade":"七年级","stage":"初中","type":"选择题","content":"某学生在参观博物馆时看到一件刻有文字的青铜器，讲解员介绍说这种文字是商周时期刻在龟甲和兽骨上的，主要用于占卜记事。这件文物上的文字最可能是：","answer":"A","explanation":"题干中提到文字刻在‘龟甲和兽骨上’，并用于‘占卜记事’，这正是甲骨文的典型特征。甲骨文是商朝时期王室用于占卜记事而在龟甲或兽骨上契刻的文字，是中国已发现的古代文字中年代最早、体系较为完整的文字。虽然金文也出现在商周时期，但它主要铸刻在青铜器上；小篆和隶书则是秦朝统一后及之后流行的字体，时间较晚。因此，正确答案是A。","solution_steps":"","common_mistakes":"","learning_suggestions":"","difficulty":"简单","points":1,"is_active":1,"created_at":"2026-01-12 10:39:54","updated_at":"2026-01-12 10:39:54","sort_order":0,"source":null,"tags":null,"analysis":null,"knowledge_point":null,"difficulty_coefficient":null,"suggested_time":null,"accuracy_rate":null,"usage_count":0,"last_used":null,"view_count":0,"favorite_count":0,"options":[{"id":"A","content":"甲骨文","is_correct":1},{"id":"B","content":"金文","is_correct":0},{"id":"C","content":"小篆","is_correct":0},{"id":"D","content":"隶书","is_correct":0}]},{"id":540,"subject":"数学","grade":"初一","stage":"初中","type":"选择题","content":"在一次班级环保活动中，某学生收集了若干个塑料瓶和易拉罐。已知他收集的塑料瓶数量比易拉罐多8个，且两种物品总数为36个。设易拉罐的数量为x个，则可列出一元一次方程为：","answer":"A","explanation":"题目中设易拉罐的数量为x个，根据“塑料瓶数量比易拉罐多8个”，可知塑料瓶的数量为x + 8个。又因为两种物品总数为36个，所以易拉罐数量加上塑料瓶数量等于36，即x + (x + 8) = 36。因此正确的一元一次方程是选项A。其他选项要么关系错误（如B表示塑料瓶比易拉罐少），要么遗漏了其中一个数量（如C和D），均不符合题意。","solution_steps":null,"common_mistakes":null,"learning_suggestions":null,"difficulty":"简单","points":1,"is_active":1,"created_at":"2025-12-29 18:51:57","updated_at":"2025-12-30 11:11:27","sort_order":0,"source":null,"tags":null,"analysis":null,"knowledge_point":null,"difficulty_coefficient":null,"suggested_time":null,"accuracy_rate":null,"usage_count":0,"last_used":null,"view_count":0,"favorite_count":0,"options":[{"id":"A","content":"x + (x + 8) = 36","is_correct":1},{"id":"B","content":"x + (x - 8) = 36","is_correct":0},{"id":"C","content":"x + 8 = 36","is_correct":0},{"id":"D","content":"x - 8 = 36","is_correct":0}]},{"id":1683,"subject":"数学","grade":"七年级","stage":"初中","type":"解答题","content":"某市举办青少年科技创新大赛，参赛学生需提交项目并完成现场展示。评委会根据创新性、实用性和展示效果三项指标打分，每项满分均为100分。最终成绩按加权平均计算：创新性占40%，实用性占35%，展示效果占25%。已知一名学生的创新性得分比实用性得分高10分，展示效果得分是实用性得分的1.2倍。若该学生最终加权成绩不低于88分，求其实用性得分至少为多少分？（结果保留整数）","answer":"设该学生实用性得分为 x 分。\n\n根据题意：\n- 创新性得分为 x + 10 分；\n- 展示效果得分为 1.2x 分；\n- 加权成绩 = 创新性 × 40% + 实用性 × 35% + 展示效果 × 25%；\n- 要求加权成绩 ≥ 88 分。\n\n代入得不等式：\n0.4(x + 10) + 0.35x + 0.25(1.2x) ≥ 88\n\n展开计算：\n0.4x + 4 + 0.35x + 0.3x ≥ 88\n\n合并同类项：\n(0.4x + 0.35x + 0.3x) + 4 ≥ 88\n1.05x + 4 ≥ 88\n\n移项：\n1.05x ≥ 84\n\n两边同除以 1.05：\nx ≥ 84 ÷ 1.05\nx ≥ 80\n\n因此，实用性得分至少为 80 分。\n\n答：该学生实用性得分至少为 80 分。","explanation":"本题综合考查了一元一次不等式的建立与求解，同时融合了加权平均数的概念，属于实际应用类问题。解题关键在于正确设定未知数，并根据文字描述准确表达各项得分之间的关系。特别需要注意的是展示效果是实用性得分的1.2倍，即1.2x，以及各项权重之和为100%。在列不等式时，要将百分数转化为小数进行计算，最后通过解不等式得到最小整数值。题目情境新颖，贴近现实，考查学生将实际问题转化为数学模型的能力，符合七年级数学课程标准中对不等式与数据处理的综合应用要求。","solution_steps":null,"common_mistakes":null,"learning_suggestions":null,"difficulty":"困难","points":1,"is_active":1,"created_at":"2026-01-06 13:32:43","updated_at":"2026-01-06 13:32:43","sort_order":0,"source":null,"tags":null,"analysis":null,"knowledge_point":null,"difficulty_coefficient":null,"suggested_time":null,"accuracy_rate":null,"usage_count":0,"last_used":null,"view_count":0,"favorite_count":0,"options":[]},{"id":1776,"subject":"数学","grade":"七年级","stage":"初中","type":"解答题","content":"某校七年级组织学生参加数学实践活动，调查校园内不同区域的植物种类数量。调查结果显示，A区域有x种植物，B区域有y种植物，其中A区域植物种类数比B区域的2倍少3种，且两个区域共有植物种类27种。活动结束后，学校计划在平面直角坐标系中标出这两个区域的相对位置：将A区域的位置设为点A(2, 3)，B区域的位置设为点B(a, b)，且线段AB的中点为M(5, -1)。已知点B在第四象限，求a和b的值，并计算点B到x轴的距离。","answer":"根据题意，列出方程组：\n\n1. A区域植物种类比B区域的2倍少3种：\nx = 2y - 3\n\n2. 两个区域共有27种植物：\nx + y = 27\n\n将第一个方程代入第二个方程：\n(2y - 3) + y = 27\n3y - 3 = 27\n3y = 30\ny = 10\n\n代入x = 2y - 3得：\nx = 2×10 - 3 = 17\n\n所以A区域有17种植物，B区域有10种植物。\n\n接下来求点B的坐标。\n已知A(2, 3)，B(a, b)，中点M(5, -1)。\n根据中点坐标公式：\n中点横坐标：(2 + a)\/2 = 5\n解得：2 + a = 10 → a = 8\n\n中点纵坐标：(3 + b)\/2 = -1\n解得：3 + b = -2 → b = -5\n\n所以点B的坐标为(8, -5)。\n\n点B在第四象限（横坐标为正，纵坐标为负），符合条件。\n\n点B到x轴的距离为其纵坐标的绝对值：|b| = |-5| = 5。\n\n答：a = 8，b = -5，点B到x轴的距离为5。","explanation":"本题综合考查二元一次方程组和平面直角坐标系中的中点坐标公式。首先根据文字条件建立关于x和y的二元一次方程组，解出两个区域的植物种类数；然后利用中点坐标公式，结合已知点A和中点M的坐标，求出点B的坐标(a, b)；最后根据点B在第四象限验证合理性，并计算其到x轴的距离。关键步骤是正确列出方程组并准确应用中点公式。","solution_steps":null,"common_mistakes":null,"learning_suggestions":null,"difficulty":"困难","points":1,"is_active":1,"created_at":"2026-01-06 15:14:32","updated_at":"2026-01-06 15:14:32","sort_order":0,"source":null,"tags":null,"analysis":null,"knowledge_point":null,"difficulty_coefficient":null,"suggested_time":null,"accuracy_rate":null,"usage_count":0,"last_used":null,"view_count":0,"favorite_count":0,"options":[]},{"id":1231,"subject":"数学","grade":"七年级","stage":"初中","type":"解答题","content":"某学生在研究平面直角坐标系中的几何问题时，发现一个动点P从原点O(0, 0)出发，沿直线y = x向右上方移动。同时，另一个动点Q从点A(6, 0)出发，沿x轴向负方向以每秒1个单位的速度匀速运动。已知点P的运动速度是每秒√2个单位。设运动时间为t秒（t ≥ 0），当t为何值时，线段PQ的长度最短？并求出这个最短长度。","answer":"解：\n\n设运动时间为t秒。\n\n点P从原点O(0, 0)出发，沿直线y = x运动，速度为每秒√2个单位。\n由于直线y = x的方向向量为(1, 1)，其模长为√(1² + 1²) = √2，\n因此点P在t秒后的坐标为：\n x_P = t × (1) = t\n y_P = t × (1) = t\n即 P(t, t)\n\n点Q从A(6, 0)出发，沿x轴向负方向以每秒1个单位速度运动，\n因此Q的坐标为：\n x_Q = 6 - t\n y_Q = 0\n即 Q(6 - t, 0)\n\n线段PQ的长度为：\n|PQ| = √[(t - (6 - t))² + (t - 0)²]\n = √[(2t - 6)² + t²]\n = √[4t² - 24t + 36 + t²]\n = √[5t² - 24t + 36]\n\n令函数 f(t) = 5t² - 24t + 36，则 |PQ| = √f(t)\n由于平方根函数在定义域内单调递增，因此当f(t)最小时，|PQ|最小。\n\nf(t) 是一个开口向上的二次函数，其最小值出现在顶点处：\n t = -b\/(2a) = 24\/(2×5) = 24\/10 = 2.4\n\n因此，当 t = 2.4 秒时，PQ长度最短。\n\n最短长度为：\n|PQ| = √[5×(2.4)² - 24×2.4 + 36]\n = √[5×5.76 - 57.6 + 36]\n = √[28.8 - 57.6 + 36]\n = √[7.2]\n = √(72\/10) = √(36×2 \/ 10) = 6√2 \/ √10 = (6√20)\/10 = (6×2√5)\/10 = (12√5)\/10 = (6√5)\/5\n\n或者直接保留为 √7.2，但更规范地化简：\n7.2 = 72\/10 = 36\/5\n所以 √(36\/5) = 6\/√5 = (6√5)\/5\n\n答：当 t = 2.4 秒时，线段PQ的长度最短，最短长度为 (6√5)\/5 个单位。","explanation":"本题综合考查了平面直角坐标系、函数思想、二次函数最值以及两点间距离公式，属于跨知识点综合应用题。解题关键在于：\n1. 根据运动方向和速度，正确写出两个动点的坐标表达式；\n2. 利用两点间距离公式建立关于时间t的距离函数；\n3. 将距离的平方视为二次函数，利用顶点公式求最小值对应的t值；\n4. 注意距离是平方根形式，但由于根号单调递增，最小值点一致；\n5. 最后代入求最短距离，并进行合理的根式化简。\n本题难度较高，要求学生具备较强的建模能力和代数运算技巧，同时理解函数最值在实际问题中的应用。","solution_steps":null,"common_mistakes":null,"learning_suggestions":null,"difficulty":"困难","points":1,"is_active":1,"created_at":"2026-01-06 10:27:01","updated_at":"2026-01-06 10:27:01","sort_order":0,"source":null,"tags":null,"analysis":null,"knowledge_point":null,"difficulty_coefficient":null,"suggested_time":null,"accuracy_rate":null,"usage_count":0,"last_used":null,"view_count":0,"favorite_count":0,"options":[]}]