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【单选题】

Passage Five
If there is one thing scientists have to hear, it is that the is over. Raised on the belief of an endless voyage of discovery, they recoil (畏缩) from the suggestion that most of the best things have already been located. If they have, today’s scientists can hope to contribute no more than a few grace notes to the symphony of science.
A book to be published in Britain this week, The End of Science, argues persuasively that this is the case. Its author, John Horgan, is a senior writer for Scientific American magazine, who has interviewed many of today’s leading scientists and science philosophers. The shock of realizing that science might be over came to him, he says, when he was talking to Oxford mathematician and physicist Sir Roger Penrose.
The End of Science provoked a wave of denunciation (谴责) in the United States last year. "The reaction has been one of complete shock and disbelief," Mr. Horgan says.
The real question is whether any remaining unsolved problems, of which there are plenty, lend themselves to universal solutions. If they do not, then the focus of scientific discovery is already narrowing. Since the triumphs of the 1960s—the genetic code, plate tectonics (快板构造税) , and the microwave background radiation that went a long way towards proving the Big Bang—genuine scientific revolutions have been scarce. More scientists are now alive, spending more money on research, that ever. Yet most of the great discoveries of the 19th and 20th centuries were made before the appearance of state sponsorship, when the scientific enterprise was a fraction of its present size.
Were the scientists who made these discoveries brighter than today’s That seems unlikely. A far more reasonable explanation is that fundamental science has already entered a period of diminished returns. "Look, don’t get me wrong," says Mr. Horgan. "There are lots of important things still to study, and applied science and engineering can go on for ever. I hope we get a cure for cancer, and for mental disease, though there are few real signs of progress."
There have not been many genuine scientific revolutions in the past few decades because______.

A.
there have been decreased returns in the research of fundamental science
B.
there are too many important things for scientists to study
C.
applied science and engineering take up too much time and energy
D.
today’s scientists are not as intelt as those in the past
题目标签:快板构造
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【单选题】巴纳德认为,社会的明确的构造材料是( )

A.
正式组织
B.
复合性正式组织
C.
非正式组织
D.
复合性非正式组织

【单选题】一位投资者希望构造一个资产组合,并且资产组合的位置在资本配置线上最优风险资产组合的右边,那么()

A.
以无风险利率贷出部分资金,剩余资金投入最优风险资产组合
B.
以无风险利率借入部分资金,剩余资金投入最优风险资产组合
C.
只投资风险资产
D.
不可能有这样的资产组合
E.
以上各项均不准确

【单选题】有关分类器的构造和实施步骤描述错误的是:()

A.
选定样本,将所有样本分成训练样本和测试样本两部分;
B.
在训练样本上执行分类器算法,生成分类模型;
C.
在训练样本上执行分类模型,生成预测结果;
D.
根据预测结果,计算必要的评估指标,评估分类模型的性能。

【多选题】建筑幕墙防火构造技术要求有( )。

A.
幕墙与各层楼板之间的缝隙,应采用岩棉或矿模等材料填充,其厚度不应小于100mm
B.
防火层应采用厚度不小于1.2mm的镀锌钢板承托
C.
承托板与主体结构、幕墙结构及承托板之间的缝隙应采用防火密封胶密封
D.
同一幕墙玻璃单元不应跨越两个防火分区
E.
防火层可与幕墙玻璃直接接触,但防火材料朝玻璃面处应采用装饰材料覆盖

【多选题】窗的构造尺寸应包括预留洞口与待安装窗框的间隙及墙体饰面材料的厚度。下列间隙中符合的有()mm。

A.
清水墙10
B.
墙体外饰面抹水泥砂浆或贴马赛克15~20
C.
墙体外饰面贴釉面瓷砖5~10
D.
墙体外饰面贴釉面瓷砖20~25
E.
墙体外饰面贴大理石或花岗岩板40~50
相关题目:
【单选题】巴纳德认为,社会的明确的构造材料是( )
A.
正式组织
B.
复合性正式组织
C.
非正式组织
D.
复合性非正式组织
【单选题】一位投资者希望构造一个资产组合,并且资产组合的位置在资本配置线上最优风险资产组合的右边,那么()
A.
以无风险利率贷出部分资金,剩余资金投入最优风险资产组合
B.
以无风险利率借入部分资金,剩余资金投入最优风险资产组合
C.
只投资风险资产
D.
不可能有这样的资产组合
E.
以上各项均不准确
【单选题】有关分类器的构造和实施步骤描述错误的是:()
A.
选定样本,将所有样本分成训练样本和测试样本两部分;
B.
在训练样本上执行分类器算法,生成分类模型;
C.
在训练样本上执行分类模型,生成预测结果;
D.
根据预测结果,计算必要的评估指标,评估分类模型的性能。
【多选题】建筑幕墙防火构造技术要求有( )。
A.
幕墙与各层楼板之间的缝隙,应采用岩棉或矿模等材料填充,其厚度不应小于100mm
B.
防火层应采用厚度不小于1.2mm的镀锌钢板承托
C.
承托板与主体结构、幕墙结构及承托板之间的缝隙应采用防火密封胶密封
D.
同一幕墙玻璃单元不应跨越两个防火分区
E.
防火层可与幕墙玻璃直接接触,但防火材料朝玻璃面处应采用装饰材料覆盖
【多选题】窗的构造尺寸应包括预留洞口与待安装窗框的间隙及墙体饰面材料的厚度。下列间隙中符合的有()mm。
A.
清水墙10
B.
墙体外饰面抹水泥砂浆或贴马赛克15~20
C.
墙体外饰面贴釉面瓷砖5~10
D.
墙体外饰面贴釉面瓷砖20~25
E.
墙体外饰面贴大理石或花岗岩板40~50