[{"data":1,"prerenderedAt":-1},["ShallowReactive",2],{"$fIvoqjxSoHEY3d11p8_SSdsrdg50esVKwVhXYz6yJ_24":3},{"answer":4,"createTime":5,"id":6,"options":7,"origin":12,"question":15,"related":16,"source":26,"type":27},[],"2023-12-21 02:00:41",982790842,[8,9,10,11],"酸奶","巧克力酱","芝麻酱","矿泉水",{"courseImg":13,"courseName":14},"https:\u002F\u002Ftihai-oss-cloud.itihey.com\u002Fimg\u002F29d27ce78c1a91a12fdeca2f123e35f2.png","诗情画意谈力学","下列食品中不属于非牛顿流体的是",[17,28,31,40,49,58,67,75,84,92],{"answer":18,"createTime":5,"id":19,"options":20,"question":25,"source":26,"type":27},[],982790830,[21,22,23,24],"不确定","不变","降低","增高","空气温度每增加一度,空气中的声速( )","v2",0,{"answer":29,"createTime":5,"id":6,"options":30,"question":15,"source":26,"type":27},[],[8,9,10,11],{"answer":32,"createTime":5,"id":33,"options":34,"question":39,"source":26,"type":27},[],982790899,[35,36,37,38],"剪应力与剪切应变率之间满足线性关系","剪应力与剪切应变率之间不满足线性关系","剪应力与剪切应变率之间关系不确定","剪应力与剪切应变率之间无关系","非牛顿流体满足条件",{"answer":41,"createTime":5,"id":42,"options":43,"question":48,"source":26,"type":27},[],982790903,[44,45,46,47],"纯净水","泥石流","空气","海水","牛顿一维剪切流动实验结果不适用于",{"answer":50,"createTime":5,"id":51,"options":52,"question":57,"source":26,"type":27},[],982790946,[53,54,55,56],"利用躯干部和尾部的肌肉收缩波浪式运动","摆动划水","喷射式游水","跳跃","蜻蜓的幼虫游水采用的是",{"answer":59,"createTime":5,"id":60,"options":61,"question":66,"source":26,"type":27},[],982790961,[62,63,64,65],"Rayleigh-Benard不稳定性","Kelvin-Helmholtz界面不稳定性","Rayleigh-Taylor不稳定性","边界层稳定性","研究边界层控制、减阻、降噪的理论依据和分析方法是",{"answer":68,"createTime":5,"id":69,"options":70,"question":73,"source":26,"type":74},[],982790969,[71,72],"对","错","墙壁的涂料、家具的油漆、牙膏、化妆品、某些药品表面不存在提高润湿性能的问题",3,{"answer":76,"createTime":5,"id":77,"options":78,"question":83,"source":26,"type":27},[],982791028,[79,80,81,82],"液体可以蒸发成气体也可以凝固成固体的特性","某种运动状态的流体运动受到扰动后,不能恢复到原来运动状态的特性","液体可以和其他液体、固体混合的特性","水往低处流的特性","流体运动的不稳定性,是指",{"answer":85,"createTime":5,"id":86,"options":87,"question":91,"source":26,"type":27},[],982791041,[88,89,90,21],"疏水","超疏水","亲水","夕露沾我衣是()现象",{"answer":93,"createTime":5,"id":94,"options":95,"question":99,"source":26,"type":27},[],982791069,[96,97,98,21],"层流状态","湍流状态","都有可能","蜻蜓的身体表面的上表皮层由表皮质层、蜡层和护蜡层组成,在表皮下有特化细胞组成的鳞片结构,具有很好的空气动力学性能,使蜻蜓身体表面的空气流动处于( ),流动稳定,摩擦阻力很小"]