i dont know this network is stupid and useless NEVER use this website again or i will hy=unt you down till the end of the earth just kidding i dont know the answer
Yes, low density polyethylene is recyclable.
Low density floats are devices used in buoyancy applications where lightweight materials, such as foam or plastic, are used to help objects or structures float in water. They are designed to displace a high volume of water relative to their weight, providing the necessary buoyant force to keep the object afloat. These floats are commonly used in marine industries, water sports, and recreational flotation devices.
Low Density a Metal?NO!!!!
A definition doesn't exist for low density. The values depends on the application or material.
For example ethers; the dimethyl ether has a density of 0,668 g/cm3.
Charcoal has a low density because it is porous and lightweight.
Yes, hydrogen can be considered to have a low density. In fact, it is the least dense of all the elements.
Quite low density: 0.968 g·cm−3
Yes, low density polyethylene is recyclable.
In series motor, At no Load Condition the flow of Armature Current is low, then the Flux is also low. Flux is inversely proportional to speed. If flux is decrease the speed is rapidly increase it spoil the rotor parts...... so SERIES MOTOR is start with LOAD.....
Low Density a Metal?NO!!!!
Gasses have an incredibly low density, less than a liquid or a solid.
Silicates have low density because their crystalline structure is characterized by large spaces between the particles. This results in a low packing density overall. Additionally, the presence of light elements such as silicon and oxygen in silicate compounds contributes to their low density.
High volume and low mass result in low density because density is calculated by dividing mass by volume. When the mass is low compared to the volume, the density will also be low because there is less mass per unit of volume.
The density of Betelgeuse is extremely low: 1,119.10 ex.-8 from the density of the sun.
Very Low Density Lipoproteinvery low density lipoprotein.
'Residual magnetism' isn't something that's 'necessary'; rather, it's something you're stuck with, whether you want it or not! Residual magnetism is due to a phenomenon called 'hysteresis', which is derived from a Greek word, meaning 'to lag'.A bit of background first. If we were to wind an insulated coil around the sample of ferromagnetic material, and pass a current through that wire, we would create and apply magnetic field strength (symbol: H), expressed in amperes per metre, to that sample. This results in a magnetic field being set up within the sample, the intensity of which we call its flux density (symbol: B) expressed in teslas.If we gradually increase the magnetic field strength, the resulting flux density would also increase until a point, called 'saturation' is reached -at this point any further increase in magnetic field strength will NOT increase the flux density. If we were to graph this behaviour, then the result would look something like an elongated 'S', rather than a straight line. This graph is known as a B-H curve.Now, if we were to reduce the magnetic field strength to zero, the magnetic flux density would also reduce towards zero (following a slightly-different curve) but would not reach zero when the magnetic field strength reaches zero -in other words, when we remove the magnetic field strength, the sample 'retains' some flux density -and we call this 'residual magnetism' or, more accurately, 'residual flux density' or 'remanance'. This is what we mean by 'hysteresis' -i.e. changes in magnetic flux density lag behind changes in magnetic field strength.To remove this residual flux density, we would actually need to reverse the direction of the magnetic field strength (by reversing the direction of the current through the coil) until the flux density falls to zero.Different ferromagnetic materials have different values of residual flux density. For example materials that make good permanent magnets have very high values of residual flux density while others, such as metals used to make transformers, electromagnets, etc., have very low values of residual flux density.To summarise, residual magnetism is something that occurs naturally and the amount of residual magnetism depends on the type of magnetic material involved. It's not a matter of being 'necessary', it's simply a characteristic of ALL magnetic materials.