If you could examine a mineral with a powerful microscope that reveals atoms and ions, you would see the arrangement of individual atoms within the crystal lattice structure of the mineral. This would give you insight into the bonding between atoms, the types of elements present, and the overall crystal morphology of the mineral at a microscopic level.
To see an atom, you would need an electron microscope with a resolution of around 0.1 nanometers or higher. Traditional light microscopes are not powerful enough to visualize individual atoms due to their limited resolution.
No, compound microscopes use visible light and have a limited resolution of about 200 nanometers, preventing them from seeing atoms which are much smaller in size at around 0.1 nanometers. Specialized instruments like electron microscopes are needed to visualize atoms.
The Scanning Tunneling Microscope (STM) was invented in 1981 and is capable of generating atomic-scale images of surfaces. It works by moving a fine-tipped probe over a surface and detecting the flow of electrons between the probe and the atoms, allowing for visualization of individual atoms.
The number of atoms in a mineral varies depending on the type of mineral and its chemical composition. Typically, minerals are composed of repeating units called unit cells that contain multiple atoms. The number of atoms in a mineral can be determined by its chemical formula and the arrangement of atoms within its crystal lattice.
Scientists can look at individual atoms using powerful tools such as scanning tunneling microscopes or atomic force microscopes. These instruments use a fine probe to scan the surface of a material at the atomic level, providing detailed images of individual atoms.
You can if you have a really powerful microscope. Minerals are like particles, only larger. Scientist can see atoms which are the smallest things we know of. But they can be seen with the proper equipment.
No, you cannot see individual atoms of elements with a school microscope. Atoms are much smaller than the wavelength of visible light, so they cannot be resolved by optical microscopes. Specialized techniques such as scanning electron microscopy or atomic force microscopy are needed to visualize atoms.
Usually, a scanning electron microscope is used to observe atoms.
To see an atom, you would need an electron microscope with a resolution of around 0.1 nanometers or higher. Traditional light microscopes are not powerful enough to visualize individual atoms due to their limited resolution.
They could use an electron microscope or an STM (scanning tunneling microscope)
No, compound microscopes use visible light and have a limited resolution of about 200 nanometers, preventing them from seeing atoms which are much smaller in size at around 0.1 nanometers. Specialized instruments like electron microscopes are needed to visualize atoms.
the electron microscope can measure atoms
electron tunneling microscope
The Scanning Tunneling Microscope (STM) was invented in 1981 and is capable of generating atomic-scale images of surfaces. It works by moving a fine-tipped probe over a surface and detecting the flow of electrons between the probe and the atoms, allowing for visualization of individual atoms.
Essentially, this is because the particles are too small - only with the most powerful electron microscopes can larger atoms be seen.
I suyppose that this is the atomic force microscope.
They view atoms through an electron microscope.