谁能帮忙看看几句句子翻译的对哇7.Energy can neither be created nor destroyed,an universally accepted law.能源既不能被创造也不能被破坏,是一种普遍的承认法律.8.He saw dim figures moving towards him.他看见模糊的人影朝他走过来.9.Not to educate the
百度试题 题目英文:Energy can neither be created nor destroyed, a universally accepted law. 译文:能量既不能创造也不能消灭,这是一条普遍公认的规律。 译文中用到了短语分译的方法相关知识点: 试题来源: 解析 √ 反馈 收藏
C Energy can neither be created nor destroyed. D Enegry of the universe remain constant. Video Solution Struggling with Thermodynamics ? Get free crash course | ShareSave Answer Step by step video & image solution for The second law of thermodynamics states that by Chemistry experts to help you...
英文:Energy can neither be created nor destroyed, a universally accepted law. 译文:能量既不能创造也不能消灭,这是一条普遍公认的规律。 译文中用到了短语分译的方法。 正确
Energy can be neither created nor destroyed问题补充:匿名 2013-05-23 12:21:38 能量既不能被创造也不能被消灭 匿名 2013-05-23 12:23:18 不可以被创造和毁坏能量 匿名 2013-05-23 12:24:58 不可以被创造和毁坏能量 匿名 2013-05-23 12:26:38 能量既不会创造,也不可以被摧毁 匿名 ...
The principle of conservation of energy states that energy can neither be created nor destroyed. Which of the following is an example of the conservation of energy? A. A light bulb getting brighter over time. B. A car slowing down without any external force. C. A pendulum swinging back ...
The law of conservation of energy states that energy can neither be created nor destroyed. Which of the following examples best illustrates this law? A. 八在式命史集光下八在式命史集光下A light bulb converting electrical energy to light and heat八在式命史集光下八在式命史集光下 B. 我采这...
搜索智能精选 题目英文:Energy can neither be created nor destroyed, a universally accepted law.译文:能量既不能创造也不能消灭,这是一条普遍公认的规律。译文中用到了短语分译的方法 答案√
According to the first law of thermodynamics, energy can be transferred as heat or work. True or false? First Law of Thermodynamics: The first law of thermodynamics is the law of conservation of energy, which is applied in the thermodynamical process. Energy can ...
The principle that applies here is the law of conservation of energy which states that energy can neither be created nor destroyed, only transferred from one form to another. You have probably met this before, and so we have a fairly straightforward task in applying it to the flow of ...