Remove heat. Large computers often use large amounts of electricity and thus disapate large amounts of heat. Gotta get rid of that heat.
A supercomputer generates a lot of heat, so it needs air conditioning to compensate, otherwise it would overheat the room and burn itself up.
All really large computers regardless of generation need an active cooling system (e.g. air conditioner, circulating liquid Freon, circulating chilled water) to dispose of their waste heat.I even have a quad-core microprocessor desktop computer that uses an internal sealed liquid coolant system to transport the waste heat from the microprocessor to the blower. The air leaving this computer's vents can be hot enough when it is working hard that it would really help if the room had an air conditioner!first generation (vacuum tube) computers all needed internal active cooling systems, because vacuum tubes produce very large amounts of waste heat even when idle!second generation (transistor) computers may or may not have needed internal active cooling systems, but the computer room they were installed in was usually air conditioned to the point of being uncomfortable to be in (except for the smallest machines in this generation, some of which could be installed in ordinary office rooms).third generation (integrated circuit) computers only large machines (e.g. supercomputers) needed significant internal active cooling systems (which were usually either circulating liquid Freon or circulating chilled water), although usually no longer necessary for most computers of this generation the computer room they were installed in was usually air conditioned to the point of being uncomfortable to be in.fourth generation (microprocessor) computers have usually not needed internal active cooling systems, with the exception of very high performance multicore microprocessor systems and microprocessor based supercomputers.
It occupied a large room in size
At 27 tonnes and the size of an entire room, the world's first computer is just as elaborate as its name suggests
Here's the formula: In plain English, we're changing CFM into Cubic Feet per Hour (CFH). Then we calculate the volume of the room by multiplying the room height times the width times the length. Then we simply divide the CFH by the volume of the room. Here's how a full formula works: Now, compare the air changes in the room to the required air changes for the type of room it is on the Air Changes per Hour Download accompanying this article. If it's a lunch or break room that requires seven to eight air changes per hour, you're right on target. If it's a bar that needs 15-20 air changes per hour, it's time to reconsider. Let's look at this engineering formula differently. When airflow is unknown and you need to calculate the required CFM for a room, first you look at the Air Changes per Hour Chart and identify the required air changes needed for the use of the room. Let's say it's a conference room requiring 10 air changes per hour. Next calculate the volume of the room (L x W x H). Then divide by the required air changes per hour to get required CFM. if you have any doubt pl mail me at selvapdm@gmail.com
yes
Yes
Get wet then sit in an air conditioned room.
It would be loud and annoying.
To maintain the temperature within that room.
Keep the room well air conditioned.
An Air Conditioning (ac) register is the little grille in the ceiling where conditioned air comes into a room.
by diffusion jaajajaja
Under most conditions, a cloth will dry faster at normal (warmer) temperature sooner than in the relatively cooler air-conditioned room. However, if the air-conditioned room has been cooled for long enough, the excess moisture will have been removed and the humidity will be lower.
Degrees Celsius.
If your glasses get cold enough in the air conditioned room then step into a warm humid outdoors some water vapor can condense on the glass.
If your glasses get cold enough in the air conditioned room then step into a warm humid outdoors some water vapor can condense on the glass.