Passive smart materials: which can only sense the environmental condition or stimuli.
Active smart materials: which sense and react to the condition or stimuli.
Very smart materials: which can sense, react and adapt themselves accordingly.
Intelligent materials: which are those capable of responding or activated to perform a function in a manual or pre-programmed manner.
The main advantages of smart or active materials are: 1. High energy density (compared to pneumatic and hydraulic actuators) 2. Excellent bandwidth 3. Simplified packaging 4. Novel functions such as the huge volume change as a function of temperature exhibited by smart gels
Passive hubs- do not amplify the electrical signal of incoming packets before broadcasting them out to the network.
function as a repeater
In active termination scheme it removes the thermal noise which results in the passive termination due to the end resistors..
Passive preventive maintenance is done in the area of prevention around thecomputer. for example: the table determined the net before doingmaintenance on, the temperature and humidity make sure not too hot orhumid, the computer is not too near the window causes the dust on the computer. is an example to do the maintenance of passive
Mehdi Ahmadian has written: 'Active and passive smart structures and integrated systems 2009' -- subject(s): Smart materials, Actuators, Industrial applications, Piezoelectric devices, Congresses, Damping, Smart structures, Vibration (Aeronautics)
Passive transport and active transport are transport of materials across membranes. Passive requires no energy, while active does.
a lot the most important is the aplication for types of smart materials
No. A Passive Input or you might know it as, a Passive Transport does that.
smart materials is used on a stealth aircraft because your mam is a milf
smart stealthy ones...
It's called passive transport for a cell's membrane. (I checked with my science teacher)
what does the term mean smart materials
Passive Transport
A "smart material" is one having a molecular structure that responds in a particular and controlled way to influences upon it. These range from magnetically-changed materials, to "memory" molecules that return to their original form, to materials that generate an electric charge when pressed, twisted, or warped. These materials can significantly change their mechanical properties (such as shape, stiffness, and viscosity), or their thermal, optical, or electromagnetic properties, in a predictable or controllable manner. Some types of smart materials are piezoelectrics, electrostrictors, magnetostrictors, and shape-memory alloys.
trololo
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