one method is to digest the metal using an acid and then use atomic absorption spectroscopy to determine which metal and how much of that metal is present in the solution. You can then work backwards to determine how much of a particular metal was in your sample (you need to know how much metal was used to make the solution).
check the mill test report
Scientists can learn the composition of a star from the amount and types of electromagnetic radiation, including light, that it gives off. Additionally, scientists can determine the rate of nuclear fusion from the amount of light released per unit of time.
To determine the empirical formula of a metal oxide, first determine the moles of metal and oxygen in a given sample. Then, divide the moles of each element by the smallest number of moles to get a whole number ratio. This ratio represents the empirical formula of the metal oxide.
Scientists can determine the composition of distant stars by analyzing their spectra. The light emitted by stars contains distinct absorption or emission lines that correspond to specific elements present in the star's atmosphere. By studying these spectral lines, scientists can identify the elements present in a star and determine its chemical composition.
The composition of a planet is determined by analyzing its density, mass, and atmosphere through techniques like spectroscopy and seismic studies. By studying the planet's physical attributes and chemical makeup, scientists can infer the materials it is made of, such as rock, metal, or gas.
True
Light wavelength and light spectrum i believe.
They use spectroscopy.
Spectral lines - nn
Shooting seismic waves into the planet
Type your answer here... D.Comparing the composition of the crust to other bodies in the solar system
check the mill test report
check the mill test report
making inferences based on data from seismic waves.
its color does determine the temperature of star.
Scientists determine the age of the Earth through radiometric dating methods, which analyze the decay of radioactive isotopes in rocks and minerals. By studying the composition of soil in different locations, scientists can establish a timeline of geological processes that have shaped the Earth, providing insights into its age and history.
Scientists can learn the composition of a star from the amount and types of electromagnetic radiation, including light, that it gives off. Additionally, scientists can determine the rate of nuclear fusion from the amount of light released per unit of time.