理论上有差别 实际上没差别 你只要记住一点 一个人不管干嘛 他自身对外界产生的功率(搬东西啦,爬楼啦,居然你想到了发热)和日常大功率电器相比都可以忽略不计。要计算的话,记住人体主要是水,什么比热容啦,密度啦直接用水来代替就差不多了,初中时闲的蛋疼没事就算自己做了多少功,基本都是几瓦几十瓦的范畴,结论两个字,无能!------------------------------------------- 展开
理论上有差别 实际上没差别 你只要记住一点 一个人不管干嘛 他自身对外界产生的功率(搬东西啦,爬楼啦,居然你想到了发热)和日常大功率电器相比都可以忽略不计。要计算的话,记住人体主要是水,什么比热容啦,密度啦直接用水来代替就差不多了,初中时闲的蛋疼没事就算自己做了多少功,基本都是几瓦几十瓦的范畴,结论两个字,无能!----------------------------------------------------------------------------更新:不去回复评论了,在这里大概写下,人体产生热量,要精确计算当然要涉及到燃烧有机物,因为这是热量的来源,不过这玩意儿不查资料没法算出来,不能脑补啊。第二,这个问题和人体表面积有个毛线关系?你在空调间里是赤条条的吗?你热了不会出汗?你不知道胖子身上有脂肪虽然表面积变大了,但是反而能减缓热量消耗吗?当然个体是有差异的,不过和空调功率比起来,还是可以忽略不计的。另外google了一下,人体的平均消耗约 100w,老外真蛋疼,有空的可以再去更权威的网站验证数据。再另外,空调的功率我也是脑补的,虽然空调只是搬运热量,我还是固执的认为搬出100w的热量可能需要消耗 100-200w的电量。再再另外,其实可以这样脑补,房间里多两三个人,你没觉得热了多少,可是空调一开,你就觉得凉快了很多啊,然后你就都懂了。How much heat per hour do humans dissipate?The average human (according to my Coke? can's Nutrition Facts label) consumes approximately 2000 Calories per day (it's actually usually somewhere between 2200 and 4000, but 2000 is a nice number). Using a simple conversion (1000 calories = 1 Calorie, 1 calorie = 4.1868 J), this amounts to 8.37 x 106 joules ingested per day.Human energy equivalentThis means that the average person expends ~8.37 x 106 joules of energy per day, since most of us are in some sort of equilibrium with our surroundings. Assuming most of this energy leaves us in the form of heat, I calculate that on average we radiate ~350,000 J of energy per hour. Since Watt is just Joules per second, this is roughly equal to energy given off by a 100 Watt light bulb! 收起
