本文为您带来温度的英文翻译，包括温度用英语怎么说，温度用英语怎么说，温度的英语造句，温度的英文原声例

本文为您带来温度的英文翻译，包括温度用英语怎么说，温度用英语怎么说，温度的英语造句，温度的英文原声例句，温度的相关英语短语等内容。

温度的英文翻译，温度的英语怎么说？

温度的英语网络释义

...巡查下列各点:处理(chǔ lǐ)风量（定义：单位时间内空气的流通量）和各测试（TestMeasure)点压力(pressure)与温度（temperature)是否与设计相符.要注意袋室结露情况(Condition)是否存在,排灰系统(system)是否畅通.

将点火开关调到ON(接通)位置或行车。 2.检查冷却液温度(TEMP)指示灯是否出现下述情况： ·保持启亮状态 ·闪亮 冷却液温度(TEMP)指示灯是否出现上述情况?

...理单位:检验单位:分项工程名称工程部位基层类型设计厚度(cm)拌合方法养生方法摊铺设备施工起迄桩号开始时间终了时间施工温度(oC)试件取样组数试件编号平均松铺厚度(mm)下承层处理(监理是否同意)或其他说明检测:记录:复核:工地负责:承包人(监理工程师):年月日 ...

... t time; temperature 时间;温度 TA total asset 全部资产，资产 TAB tax anticipation bill (美国)预期抵税国库券 ...

温度的汉英大词典

温度[wēn dù]

• {物} temperature:

  absolute temperature;

  绝对温度

  indoor temperature;

  室内温度

• 短语:
  • 温度饱和 {电子} filament saturation; saturation; temperature saturation;
  • 温度倍加器 thermomultiplicator;
  • 温度变化 temperature variation;
  • 温度变化适应性 poikilothermism;
  • 温度标 scale of thermometer;
  • 温度表 thermometer; thermograph;
  • 温度不（稳）定 fluctuation of temperature;
  • 温度不均匀分布 thermal contrast;
  • 温度测量 {油工} temperature survey;
  • 温度测量方法 thermometry;
  • 温度测量系统 temperature measurement system;
  • 温度测量仪表 temperature measuring instrument;
  • 温度测量元件 temperature-measuring element;
  • 温度差 temperature difference;
  • 温度场 temperature field;
  • 温度传导率 temperature conductivity;
  • 温度传感器 temperature probe; temperature transmitter;
  • 温度带 {气} temperature belt;
  • 温度导航 thermometric navigation;
  • 温度等级 temperature grade;
  • 温度滴定 {分化} calorimetric titration; enthalpy titration; thermal titration; thermometric titration;
  • 温度滴定法 thermometric titration;
  • 温度点 temperature spot;
  • 温度电容系数 temperature coefficient of capacitance (TCC);
  • 温度订正 temperature correction; temperature reduction;
  • 温度定义固定点 temperature defining fixed point; （动物）
  • 温度反应 thermotonus;
  • 温度范围 temperature range;
  • 温度分布 temperature distribution;
  • 温度感觉缺乏 thermanaesthesia;
  • 温度感受器 thermoreceptor;
  • 温度观测 temperature observation;
  • 温度恒定 constancy of temperature;
  • 温度恢复系数 temperature recovery coefficient;
  • 温度基准点 temperature reference point;
  • 温度畸变 temperature distortion;
  • 温度记录 thermography; pyretography;
  • 温度记录器 {工} thermometrograph; recording thermometer; thermograph;
  • 温度记录仪 temperature recorder;
  • 温度继电器 temperature relay;
  • 温度较差 range of temperature; temperature range;
  • 温度觉 temperature sensation; thermal sense;
  • 温度绝对年较差 absolute annual range of temperature;
  • 温度恐怖 {心理} thermophobia;
  • 温度控制 temperature control;
  • 温度控制器 thermoregulator;
  • 温度灵敏度 temperature sensitivity;
  • 温度露点差 depression of the dew point; dew-point deficit;
  • 温度敏感突变型 temperature sensitive mutant;
  • 温度逆增 temperature inversion;
  • 温度漂移 temperature drift;
  • 温度漂移校准 temperature drift correction;
  • 温度气压计 thermobarometer;
  • 温度气压记录器 thermobarograph;
  • 温度深度仪 bathythermograph;
  • 温度湿度记录器 thermohygrograph;
  • 温度试验 temperature test;
  • 温度受感膜盒 temperature sensing capsule;
  • 温度瞬变 temperature transient;
  • 温度探测系统 temperature-sensing system;
  • 温度特性 temperature characteristic;
  • 温度梯度 temperature gradient;
  • 温度调节 thermoregulation; attemperation;
  • 温度调节器 attemperator; thermoregulator;
  • 温度调节系统 temperature control system;
  • 温度调谐 thermal tuning;
  • 温度突变 temperature jump;
  • 温度突变层 thermocline;
  • 温度突跃 thermal shock;
  • 温度图像 temperature pattern;
  • 温度陡度 {热} temperature gradient;
  • 温度稳定性 temperature stability;
  • 温度系数 temperature coefficient (T.C.);
  • 温度限制电流状态 temperature limited current state;
  • 温度限制二极管 temperature limited diode;
  • 温度相关 temperature correlation;
  • 温度效率指数 {生态} temperature-efficiency index (T-E index); thermal-efficiency index;
  • 温度效应 temperature effect;
  • 温度选择器 temperature selector;
  • 温度循环 {核子} temperature cycle;
  • 温度循环试验 temperature cycling test;
  • 温度延迟系数 temperature coefficient of delay;
  • 温度依赖性 temperature dependency;
  • 温度异常 temperature anomaly;
  • 温度应变 temperature strain;
  • 温度应力 stress due to temperature;
  • 温度影响 temperature effect;
  • 温度跃层 epilimnion;
  • 温度噪声 temperature noise;
  • 温度直减率 temperature lapse rate;
  • 温度指示漆 tempilstik;
  • 温度指示器 temperature indicator;
  • 温度自记曲线 thermogram

温度的英语短语

温度的英文例句

今天夜间的温度不会高于零度。

Temperatures will not rise above zero tonight.

新型塑料能承受很高和很低的温度。

Modern plastics can stand very high and very low temperatures.

红葡萄酒发酵的温度比白葡萄酒高。

Red wine is fermented at a higher temperature than white.

今夜温度将远降至冰点以下。

Tonight temperatures will fall well below freezing (point).

主要的争议点是空调温度。

The main bone of contention is the temperature level of the air-conditioners.

今天下午的阳光可使温度达到冰点以上。

This afternoon's sunshine could nudge the temperature above freezing.

做这实验时温度保持不变，但压力可变。

The temperature remained constant while pressure was a variable in the experiment.

我们测量了温度的变化。

We measured the difference in temperature.

气温一直比平均温度高。

Temperatures have been above average.

温度已大大降低。

The temperature has dropped considerably.

温度为零上四度。

The temperature is plus four degrees.

温度升高了五度。

The temperature has risen (by) five degrees.

夜间温度陡降。

The temperature fell sharply in the night.

通过热传导，温度变得一致，直到最终达到一个恒定状态。

Temperature becomes uniform by heat conduction until finally a permanent state is reached.

它把压强、体积、温度联系在一起。

It relates the pressure, volume, and temperature together.

增加的工人数量可用于温度维护。

An increase in the number of workers is available for temperature maintenance.

气体温度上升致使气体膨胀。

A rise in the temperature of the gas results in its expansion.

它是一个温度特殊的地方。

It's a place at a special temperature.

这个模型可以预测温度。

This model can predict temperatures.

我们需要有适当的温度。

We have to have the right temperature.

温度降到摄氏零下十度。

The temperature dropped to minus ten degrees centigrade.

还有，把房间温度调低。

Also, lower the room’s temperature.

夜间温度通常会下降。

At night, the temperature usually drops.

温度也会发生变化。

The temperature can change.

这两天温度下不来。

The temperature won't fall these days.

温度在急剧上升。

The temperature is shooting.

晚上温度下降了。

The temperature sank at night.

温度很快升高了。

The temperature rose quickly.

温度保持不变。

The temperature stays the same.

温度持续下降。

The temperature keeps dropping.

温度的原声例句

So now if I look at my V1 over V2 to the gamma minus 1, that's T2 over T1.

于是把^=中2,的两个温度。

So when I expand this gas adiabatically and it cools down, why do you think it might cool down?

现在我们知道了气体绝热膨胀时,温度会下载，为什么会降温？

We control how we use time, we control the temperature in the environment, and hermetically seal ourselves in things.

我们控制时间的利用，我们控制周边环境的温度,我们把自己封闭在各种事务中，与世隔绝。

That is to say brick work in high temperature furnaces, maybe tiles on the Shuttle, to resist high temperatures because of the high internal bonding.

它在能够承受高温炉的温度，例如瓷砖，能够耐受高温,因为它们有强的内部键作用。

- And now temperature in Fahrenheit -- 212 all right, let's go ahead and pick an easy one like 212, Enter, and indeed equals 100 in Celsius.

现在输入华氏温度-,好的，让我们选一个简单的，像，回车，确实等于100摄氏度。

That's another invention of the 1600s, by the way-- the thermometer. And they learned that concept-- perfectly natural to us--temperature.

顺便说一下,温度计也是十七世纪的发明,那时候的人才刚刚开始理解温度的概念,虽然对我们来说这是个很自然的概念

When the temperature gets above the level you want it to be.

就在当温度超过你想要的温度时

That means that this temperature right here is the absolute lowest temperature you can go to that physically makes any sense.

是物理上不可能的状态,也就是说这一点,对应的温度是物理上。

For a real gas it depends on more than the temperature STUDENT: Are there any other constraints similar to that .

而对实际气体，这是不对的,它的内能不仅仅依赖于温度,学生：有其他,类似的约束吗？

Yet, the temperature goes up. So, I can have a temperature change which is an adiabatic temperature change.

它与外界不会，有物质或者能量的流动,然而系统的温度升高了。

How to go from one reference point to the other with this property. This property, f which we're going to call f.

这两个参考点插值,得到不同温度时工作物质的特性，我们把这一特性记做。

It sounds pretty silly, but it's really important because it allows you to define a thermometer and temperature.

这听起来相当白痴，但是它确实很重要,因为它让你可以定义,温度计和温度。

It's going to have some volume, temperature to begin with, and then we're going to do something to it.

气体有一定的，体积与温度，现在我们。

That is, most processes that we're concerned with, they'll happen with something held constant like pressure or temperature or maybe volume.

这句话是说我们所关注的大部分过程，发生的时候都是保持某个量为常数,比如压强，温度或者体积。

It allows you to define the concept of a thermometer. You have three objects, one of them could be a thermometer.

从热的物体流向冷的物体,由此我们可以定义温度，我们还可以用它来定义温度计：

OK, for most gases, T inversion is much 300K greater than 300 degrees Kelvin. Much greater than room temperature.

好，对大多数气体,转变温度都高于,比室温高很多。

And that property could be the volume, like if you have a mercury thermometer , the volume of the mercury.

这种性质可以是体积，如果你有水银温度计,水银的体积。

We could just collect a bunch of data. For a material .What's the volume it occupies at some pressure and temperature?

对一种物质我们可以得到一系列测量数据,在给定的温度和气压下,它的体积是什么？

So he grabbed his thermometer, and went and made a couple of measurements and discovered the first law of thermodynamics.

所以他拿来了温度计，进行测量,后来就发现了热力学第一定律。

In principle, this value, this efficiency, can approach 1 as the low temperature approaches absolute zero.

这个值，效率，当低温热源的温度1,是据对零度时可以达到一。

And you already saw last time there was this relationship between the temperature and volume changes along an adiabatic path.

是条绝热路径，而上次你已经看到,沿着绝热路径温度和体积,的变化有这个关系。

If you double everything in the system, the temperature is not going to change, it's not going to double.

如果你把系统中所有的东西增加一倍，温度是不会变的，它不会跟着增加一倍。

And that will end up winning out at basically any realistic temperature where the stuff really is a gas.

在体系仍然处于气体状态的温度下,熵战胜了能量。

Your plant is going to blow up, because the ideal gas law works only in very small range of pressures and temperatures for most gases.

理想气体定律,只在一个很小的压强,与温度的范围内适用。

Whereas under these conditions, these quantities, if you look at free energy change, for example at constant temperature and pressure, H you can still calculate H.

但是，在这些条件下，这些物理量，如果我们考察自由能的变化,例如在恒定的温度和压强下，我们仍然可以计算。

B=0 There's going to be some temperature where B is equal to zero. In that case, your gas is going to look awfully like an ideal gas.

在某个温度,这时，实际气体的表现，十分接近理想气体,高于这一温度它是正的。

And in particular let's look at, for example, du/dV du/dV at constant temperature.

更特殊一点考察，恒定温度下的。

For instance, the pressure and the temperature, or the volume and the pressure.

比如压强和温度，或体积和压强。

And so, again, we see a temperature increase, and we know the work, and the temperature increase, it's a constant pressure thing.

好，我们看到温度升高了，然后我们有做功量和温度的升高量，这是一个恒定压力下的值。

There's a volume, there's a temperature, than the pressure here. There's other volume, temperature and pressure here, corresponding to this system here.

温度等状态函数有本质区别，这个状态有一组，确定的体积，温度与压强。

温度的网络释义

很抱歉，暂无字的网络释义。

以上关于温度的英语翻译来自英汉大词典，希望对您学习温度的英语有帮助。