This is a crystal which, when squeezed, will generate a potential difference across opposite faces. A practical example is an inexpensive phonograph/gramophone pickup.
zinc,cement,sand,concrete,stone,block,rods and brick
They are known as sedimentary rocks: limestone, chalk and slate are three examples.
recycling
Some examples of millipedes are:Narceus americanus - the American giant millipedeAnadenobolus monilicornis - the yellow-banded millipedeTrigoniulus corallinus - the rusty millipede
answer is pn wikipedia
Some rare examples of energy conversion include converting mechanical energy directly into electrical energy through piezoelectric materials, converting heat energy into electricity using thermoelectric generators, and converting sound energy into electrical energy using specialized materials like piezoelectric crystals.
The power produced from piezoelectric materials can vary depending on factors like the size of the material, the force applied, and the efficiency of the energy conversion process. Generally, piezoelectric materials can generate milliwatts to a few watts of power.
Piezoelectric materials have been integrated with silicon microelectromechanical systems (MEMS) in both microsensor and microactuator applications. Some recent and emerging applications of piezoelectric MEMS are acoustic emission microsensors, vibration monitors, molecular recognition biosensors, precision positioners, micropumps, and linear stepper motors. - See more at: http://www.chacha.com/question/how-are-piezoelectric-materials-that-contain-silicon-used-in-science-and-industry#sthash.EpLIkFTw.dpuf
Piezoelectric materials typical experience a reduction in the remnant polarization. The effectively reduces the coupling between mechanical and electrical energy reducing the electro-mechanical coupling coefficient.
Piezoelectric positioning is a technology that uses piezoelectric materials to precisely control and adjust the position of an object. When an electric field is applied to these materials, they undergo a deformation, allowing for very fine movements and adjustments. This technology is used in various applications such as nanopositioning, microscopy, and precision machining.
Piezoelectric substances are materials that generate an electric charge when mechanical stress is applied to them. This property allows them to convert mechanical energy into electrical energy and vice versa. Common examples of piezoelectric substances include quartz, ceramics, and certain crystals.
Some examples of smart materials include shape memory alloys (e.g. Nitinol), piezoelectric materials, self-healing polymers, and magneto-rheological fluids. These materials can react to external stimuli such as temperature, pressure, or magnetic fields to exhibit unique properties like changing shape, generating electricity, repairing damage, or altering viscosity.
examples of raw materials are Diamond, Suger and Aluminum.
Piezoelectric materials can convert mechanical energy into electrical energy and vice versa, making them valuable in sensors, actuators, and energy harvesting devices. They are also durable, responsive, and operate in a wide range of temperatures. Additionally, piezoelectric materials are used in various industries like healthcare, automotive, and energy due to their high sensitivity and precision.
the examples are fabric cloth,glass
Piezoelectric materials are typically made from ceramic crystals such as quartz, lead zirconate titanate (PZT), or polyvinylidene fluoride (PVDF). These materials have the ability to generate an electric charge in response to mechanical stress and vice versa, making them useful in a variety of applications such as sensors, actuators, and energy harvesting devices.
Some examples of basic materials include wood, steel, concrete, plastic, and glass. These materials are commonly used in construction, manufacturing, and everyday household items.