I'm trying to transfer lime wire files to a diffrent computer, but cant seem to figure it out. I tried emailing the files to myself, but the computer wouldnt open them due to securety reasons. I tried click and drag to wmp, then saveing onto a jump drive. But when I plugged the jump drive back in to the computer I was trying to get the files off of it said it was unable to find the file location. The coputer I'm trying to get the files off of is windows vista. Any ideas? thanks.
i thought lime was a green citrus fruit nice in a glass of lemonade lol :)
theyr from the lemon family
A promat lime slaking system catered to your plants needs including: Welded steel lime storage silo, bin activator, lime paste slaker, volumetric screwfeeder, manual maintenance gate, vibrating circular screen separator, grit discharge screw, slurry agitation tank, and a dual transfer pump skid ...Is that what your looking for?
really i dont now if you are talking about this kind of rocks limestones but about lime stones :Limestone is a very common sedimentary rock of biochemical origin. It is composed mostly of the mineral calcite. Sometimes it is almost pure calcite, but most limestones are filled with lots of other minerals and sand and they are called dirty limestones. The calcite is derived mostly from the remains of organisms such as clams, brachiopods, bryozoa, crinoids and corals. These animals live on the bottom of the sea and when they die their shells accumulate into piles of shelly debris. This debris can then form beds of limestone. Some limestones may have been derived from non-biogenic calcite formation. Although some limestones can be nearly pure calcite, there is often a large amount or sand or silt that is included in the shelly debris. Thank You Avril Lavigne
Lime is CaO, generally manufactured from Ca(CO3) by heating limestone or seashells, (burning lime). CaO is called 'quicklime', has a high affinity for water, and rapidly goes to the Hydroxide, ['slaked lime, Ca(OH)2] with evolution of heat. Further water yields Ca(OH)2 .x H20 crystals, and more heat. Ca(OH)2 will gradually go back to Ca(CO3) on long exposure to air. This is how Lime mortar 'sets up' over time.