Sodium Chloride
It would most likely react by backside attack to form methyl chloride.
Fort McMurry
BEDROCK ~@P3X~
Fe3Cl
Could be at the edges, but more likely to be a terminal moraine formation. These mounds are just the irregular clumping of clayey moraine material, and their formation is contributed to by the iceblock - caused kettles between them. Note, Terminal Moraine is likely to have lots of clayey material in it from the ground rock flour from the glacier base. Subsequent river/stream erosion into this material is likely to leave tall near-vertical rubble cliffs.
More probable sodium chloride.
Sodium chloride- ionic solids tend to be brittle and shatter, bronze is an alloy of copper and tin and metals and alloys are malleable.
If you are referencing Pandora's Jar here, commonly mistakenly referred to as Pandora's Box, it was most likely made out of clay or bronze.
An alloy. Two types: substitutional (brass and bronze), or interstitial (steel).
Sorry no Bronze US half dollars, it's likely a bronze mint medal of some type.
Most likely during the Bronze Age.
It depends. It is most likely potassium chloride and lithium carbonate
most likely not.
Chloride and bromine are not likely to form an ionic bond because only one of them, chloride, is an ion.If the questioner meant chlorine and bromine, they are not likely to form an ionic bond with each other, because there is too little difference in their electronegativities. However, both of them are very likely to form ionic bonds with less electronegative elements, such as metals.
After the wheel and brake caliper are removed, the rotor will most likely be stuck to the wheel hub. You will have to hammer, pry, soak with penetrant, and hammer some more to get it off.After the wheel and brake caliper are removed, the rotor will most likely be stuck to the wheel hub. You will have to hammer, pry, soak with penetrant, and hammer some more to get it off.
It would most likely react by backside attack to form methyl chloride.
It is chloride which forms silver chloride.