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There are several dehumidifiers that can be integrated into a homes heating system.
An electrical wire will heat up, depending on how much current passes through it. The amount of heat produced (and power wasted) is proportional to the square of the current. Usually, the main worry is that the circuit may overheat. Thus, it doesn't really matter how many machines or appliances you connect, but rather, how much total power they use.
There is no such thing as a heat power cycle in a steam engine.The power stroke, or strokes, result from pressurised steam being let into the cylinder and moving the piston.
real power (as opposed to imaginary power, which is not dissipated)
A heat related technology is some object that gives off heat to warm something or cook it. Basically something that warns stuff with technology
The integrated circuit replaced vacuum tubes in electronic devices. This improved electronic devices because the two main problems with vacuum tubes were: 1. Heat generation/ power consumption and 2. Fragility
Heat dissipation? Black is an easy color to produce cheaply. Color costs money.
Mainly overwhelming reduction in computer size, phenomenal increase in computer speed, reduced power consumption, reduced heat dissipation and an astonishing increase in overall computing power. Other than that, there haven't been many advantages to integrated circuits.
CMOS is a type of technology for constructing integrated circuits. One advantage of this setup is less waste heat compared to NMOS logic or transistor-transistor logic.
Transistors are the fundamental building blocks of integrated circuits, broadly classified into two types, analog (continuously changing voltages and currents) and digital (binary or two states on and off). In both circuits the transistor performs the function of a gain element or switch. Discrete (individually packaged) transistors are commonly used in power applications, where high voltages and currents must be controlled. The devices are sometimes packaged in a way that permits dissipating large amounts of power as heat, and may include bolts or flanges to permit attachment to metal heat sinks to dissipate this excess heat.
Vaccum tubes use a lot of power and give off heat.
No. Reducing the resistance of a sub woofer effectively means that more power is available from the amp. It does not improve power handling of the sub itself. In order to improve power handling of a sub, you need to improve its ability to manage heat. In the audio industry, companies generally improve heat management by giving their subs large diameter voice coils and more massive magnets. The large voice coil provides more surface area from which to radiate excess heat. The more massive magnets provide both greater magnetic field strength and more mass with which to absorb the heat from the voice coil. Mr. Van said: The impedance of the speakers must match the output impedance of the amplifier or there will be wasted power loss, usually converted to heat. This heat sometimes damages the output transistors or integrated circuits in the amplifier, or the speaker, or both. Some amplifiers have protection circuits that may prevent this by blowing a fuse, tripping a breaker , or just reducing the output power.
transistor
transistor
The earliest electronic digital computers used hot cathode vacuum tubes. The cathodes of these tubes glowed red hot.The second generation electronic digital computers used transistors. These ran much much cooler than hot cathode vacuum tubes, but could still get warm. Even though individual transistors normally did not get hot, if the complete computer was not equipped with a cooling system it could accumulate enough heat to damage itself.The third generation electronic digital computers used bipolar integrated circuits. Due to the number of transistors in these integrated circuits, some types got hot enough to burn your skin if you touched them.Modern fourth generation electronic digital computers use field effect transistor integrated circuits and microprocessors. While these generally operate cooler than bipolar integrated circuits, often the microprocessors and a few other high speed integrated circuits can still get hot enough to burn your skin if you touched them.
It is when it is heated by electric power, when it gives off heat and light.
Electronics generate heat when the electrons are energizing the circuits. Some circuits require heat dissipation in order to extend their life span of usage.