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What properties would you use to determine whether two minerals samples are different minerals?
Minerals are described by physical properties related to chemical structure and composition. Characteristics include color, streak, hardness, luster, diaphaneity, tenacity, cleavage, specific gravity, parting, fracture, and crystal structure and habit, which can be changed by temperature, pressure and composition of mass.
What else can I help you with?
Suppose you have two mineral samples with the same hardness What other mineral properties could you use to decide whether the two samples are the same mineral?
You could use properties such as cleavage, streak color, color, density, luster, and crystal habit to differentiate between the two samples. These properties can help determine if the samples are the same mineral or different minerals, even if they have the same hardness.
Which microscope is best suited to study minerals and fibers?
A polarizing light microscope is best suited to study minerals and fibers because it can analyze the optical properties of samples, such as birefringence, which can help in identifying and characterizing them. In addition, it can also provide information on the internal structure and crystalline nature of the samples, making it a valuable tool for mineralogical and fiber analysis.
What is mineralogy and what does a minerologist do?
Mineralogy is the study of minerals, their properties, structures, and occurrences in nature. A mineralogist is a scientist who specializes in studying minerals, including their composition, formation, and distribution. They may analyze mineral samples, conduct experiments, and contribute to our understanding of the Earth's geology.
How do geologists identifying minerals too small to be seen in a hand specimen?
Geologists identify minerals that are too small to be seen in a hand specimen using powerful microscopes. Minerals are classified according to their physical properties such as color, streak, cleavage, hardness and crystal form.
Scientists have been able to determine the composition of Earth's layers by doing what?
Scientists have determined the composition of Earth's layers through a combination of techniques such as seismic data analysis, laboratory experiments on rock samples, and studying the chemical and physical properties of minerals. By examining how seismic waves travel through the Earth and how they are reflected and refracted at different boundaries, scientists have been able to gain insights into the composition of each layer.
What properties to would you use to determine whether to mineral samples are different minerals?
You could use the streak color, whether it has cleavage or fracture, the texture, the luster, the hardness, the color, and lots of different properties.
What properties would use to determine whether two mineral samples are different minerals?
You could use the streak color, whether it has cleavage or fracture, the texture, the luster, the hardness, the color, and lots of different properties.
Suppose you have two mineral samples with the same hardness What other mineral properties could you use to decide whether the two samples are the same mineral?
You could use properties such as cleavage, streak color, color, density, luster, and crystal habit to differentiate between the two samples. These properties can help determine if the samples are the same mineral or different minerals, even if they have the same hardness.
What properties would you use to determine whether two mineral samples are different minerals?
by their special properties like taste ,florescence, chemical reaction, optical properties , magnetism , radioactivity! hope helped ya :)
What are mine exploration samples and its purpose?
Mine exploration samples are samples of rock taken when prospeting a mine. They are used to determine how much of certain minerals of interest are present in the area.
How is science used when extracting minerals in mining?
Science is used to analyse samples from the area of interest to the mining company. It's no good mining for a specific mineral - if there's none in the target area ! Chemical analysis of the samples will determine what (if any) useful minerals are present.
How do you tell if two samples are signficantly different?
Statistical tests like t-tests or ANOVA can be used to determine if two samples are significantly different. These tests compare means of the samples, account for sample size, and calculate a p-value to determine if the difference is significant. A p-value below a chosen significance level (commonly 0.05) indicates that the samples are significantly different.
What is a mineralogist?
A mineralogist is a scientist who studies minerals, including their composition, properties, and formations. They may analyze samples in a laboratory, conduct fieldwork to collect samples, and use various techniques to identify and classify minerals. Mineralogists play a key role in understanding the Earth's geology and mineral resources.
Why does samples of platinum and copper can have the same extensive properties but not the same intensive properties?
Samples of platinum and copper can have the same extensive properties but not the same intensive properties for a couple of reasons. These are both metals but have differing numbers of electrons.
Why can samples of gold and copper have the same set of physical properties but not the same set of chemical properties?
They do not have the same set of physical properties. At the very least they have different melting and boiling points, and different densities, and their colors are not identical.
How could properties such as color texture and temperature help scientists distinguish between 2 different samples of matter?
Scientists can distinguish between two samples of matter by comparing their color, texture, and temperature. Color can indicate different substances based on how they interact with light. Texture can vary based on the arrangement of atoms or molecules within the material. Temperature can provide insight into the energy content and behavior of the samples. Collectively, these properties can help scientists differentiate between materials.
What properties do nanoscale particles have that are different than those of macroscopic samples of the same substance?
Nanoscale particles have a higher surface area-to-volume ratio, leading to increased reactivity and different optical, electronic, and magnetic properties compared to macroscopic samples. They also exhibit quantum confinement effects due to their small size, resulting in unique behaviors that are not observed in larger samples of the same substance.
