only if it was heavy enough and in a solid state rather than being iron filings as if the sample of iron was large enough then dropping said lump of pure iron on ones foot for example would break bones at worse or cause bruising at worse hop i was of some help answered by THE FOUNTAIN OF KNOWLEDGE.
it depends on the units of the specific heat, but if they are J / goC then you would take your delta T (25-20) and multiply it by your mass (14g) and multiply by your specific heat. In this case it would be 5 * 14 * .11 = 7.7 (with whatever units of energy your specific heat is in.) Just make sure your units cancel out and you will get it right!
Iron is a major component of red blood cells. The oxygen you breathe bonds to the iron in your red blood cells. If you had no iron in your body you would likely die.
Electric Iron by far.
Iron is prone to rusting in the presence of water. If you placed iron in the body, which is mainly water, it would rust and corrode. This means it disintergrates. It would also release dangerous amounts of Iron Oxides into the blood.
because pure iron have not carbon, that disrupt the magnetic field.
no iron is not hazardous. your can be in a room full of iron and not die. however iron is toxic.
The painted iron sample would likely have less corrosion compared to the unpainted iron sample due to the protective layer provided by the paint. The unpainted iron sample would be more prone to rusting and deterioration from exposure to the elements.
To balance a 1.00 gm sample of lead, an equivalent volume of iron would be needed. Since iron is denser than lead, you would need a smaller volume of iron. The volume of iron required would depend on the densities of lead and iron.
Hydrochloric acid can dissolve iron ore, while water or an alkaline solution can dissolve sand. It's important to note that these substances should be handled carefully as they can be hazardous to health and the environment.
Iron is magnetic so move a magnet through your soil sample to remove all the iron fillings.
it would be verified by the oil sample, the tech would then look at the intake system for leaks or breaks, being as silica is dirt/sand. chrome and iron are piston rings and liners and this all would be found in an oil analysis.
Iron oxide is considered a non-hazardous material with low toxicity. However, it can cause irritation or harm if inhaled in large quantities or if it comes in contact with skin or eyes. It is important to take appropriate safety precautions when handling iron oxide.
The weight of a sample depends on both its density and volume. While iron is denser than feathers, a large enough volume of feathers can outweigh a smaller volume of iron. For instance, if you have a bulk of feathers that occupies a significant space, their combined weight could surpass that of a small, dense piece of iron. Therefore, it’s possible for a sample of feathers to weigh more than a sample of iron despite the difference in density.
First of all Fe is Iron, and a sample of Iron would just be pure Iron thus there wouldn't be any "bonds" Second of all Fe is a metal thus cannot have a covalent bond. If it bonds, it is usually an ionic bond with non-metal i.e. Oxygen to make rust
To determine the identity of the sample, you would need the density of the material it is made of. Density is calculated by dividing mass by volume (density = mass/volume). Without this information, it is not possible to accurately determine the identity of the sample.
To calculate the mass of the sample using dimensional analysis, you would use the expression: mass = volume × density Substitute the given values for volume (10.0 mL) and density (7.87 g/mL) into the expression to calculate the mass of the iron sample.
The Phenanthroline Method typically measures ferrous iron (Fe2+) in a sample. This method relies on the formation of a colored complex between ferrous iron and phenanthroline, making it suitable for measuring this particular form of iron in a solution.