This needs a significant magnetic field.Simon Bridge said:The curve of the track tells you the charge and gives clues about the energy.
Without a particle accelerator, most tracks should come from stable (or long-living, in case of muons) particles.The length of the tracks provide clues about the lifetime.
A cloud chamber is a scientific instrument used to detect and track charged particles, such as electrons and alpha particles, that pass through it. It works by creating a supersaturated vapor environment, which allows the particles to leave a visible trail as they pass through.
A cloud chamber works by creating a supersaturated vapor environment using a mixture of water vapor and alcohol. When a charged particle passes through the chamber, it ionizes the vapor molecules, causing them to condense into visible droplets along the particle's path. This creates a visible trail that can be captured on camera or observed directly.
A cloud chamber can detect and track a variety of charged particles, including electrons, alpha particles, beta particles, and cosmic rays. It can also detect neutral particles, such as photons, if they interact with the vapor molecules and create a charged particle that can be detected.
Identifying trails in a cloud chamber is important for studying the properties of charged particles and their interactions with matter. It can also help in identifying unknown particles and understanding the origins of cosmic rays. Additionally, cloud chambers are used in particle physics research and can provide valuable insights into the behavior of subatomic particles.
Yes, there are some limitations to using a cloud chamber. One of the main limitations is that it can only detect and track charged particles. Neutral particles, such as neutrons, will not leave a trail in a cloud chamber. Additionally, the size of the chamber and the duration of the experiment can also limit the types of particles that can be detected and observed.