If the water is at standard temperature and pressure (25 degrees Celsius and one atmosphere), the water has density of 1 kilogram per liter. When submerged, the metal displaces its own volume of water. Therefore, the volume of the metal is 1 liter, and the density of the metal is 6 kg/liter.
The metal block's density is about 13.636 g/cm3
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As far as I am aware, there is no elemental metal with a density of 9.5 g per cm3. Thulium (9.32) is followed by Bismuth (9.75). But I presume that you can alloy one or metals with density lower than 9.5 and one or more with higher density.
Yes. And the question is ... The sphere is certainly not made of a common metal. It could be Europium or an alloy or common elements.
Yes, the density of an object has no relation the number of pieces that the object is divided into, nor to the size of the obect. For example: The density of 1 pound of steel is exactly the same as the density of 1 ton of identical steel, and the density of 1 mL of water is exactly the same as the density of one Liter of water. That is the textbook answer, in real life most cutting techniques disturb the boundary of the cut line. So if you want a real to life answer then the density is only changed at the cut line where temperature and pressure will effect the structure of the metal being cut. Textbook answer is density remains unchanged throughout the whole of the material no matter how many times you cut it. think of density as "how hard something is packed together at the molecular level". This is a ok way to look at density. Cheers!
If the object, when submerged in water, displaces a volume of water whose mass is greater than its own, then it will float. The density of the material from which it is made is not the key as can be seen from the fact that ships made of metal will float.
It depends on the metal. Lithium has lower density than water: 0.534 kg per liter. Copper is 8.94 kg per liter. Tungsten, which is now used as sinkers for fishing is 19.25 kg per liter. Osmium is the density champion at 22.59 kg per liter.
When a more reactive metal displaces a less reactive metal in a solution what is the reaction calledRead more: When_a_more_reactive_metal_displaces_a_less_reactive_metal_in_a_solution_what_is_the_reaction_called
Usually yes; but depending on the metal, the density can be anywhere from less than one (kg/liter, i.e., the density of water), to about 20.
If the density of titanium metal is 4.51 g per cm cubed at 25 degrees C, the mass of titanium that displaces 65.8 ml of water at 25 degrees C would be 29.7 g.
An object will sink in water if it has a greater density than the water. This refers to the object's TOTAL or AVERAGE density, not necessarily the density of individual parts. Specifically, in the case of a ship, it includes the air that is trapped inside.
The metal's density is 19,300 kg/m3
Because a reactive metal displaces less reactive metal from its salt,& NaOH is a base.
Every metal has a density.
Low Density a Metal?NO!!!!
Low Density a Metal?NO!!!!
Compare the density with coppers known density (8.94g/mL) by weighing the mystery metal's mass and dividing by it's volume, which can be determined by measuring how much water the metal displaces when submerged. (Additionally, by heating a portion of it briefly in the presence of oxygen a dark blackish-brown color of copper oxide should become visible. Heating it with a direct flame from a small torch should produce a green flame quite easily as well.) All of these tests will allow one to determine if an item is "REAL" copper. They will not assure one that the copper is "PURE" copper (even the density test can be fooled by a witty seasoned metallurgist)