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What are 3 kinds of radiation given off by radioactive substances?
The three types of radiation given off by radioactive substances are alpha particles, beta particles, and gamma rays. Alpha particles are the least penetrating, beta particles are more penetrating than alpha particles, and gamma rays are the most penetrating and dangerous type of radiation.
What is the collective name of high-energy particles and rays given off by the nuclei of atoms?
The energy is called nuclear radiation, high energy particles and rays that are emitted by the nuclei of some atoms.
What happens to particles when thermal energy is given to them?
When thermal energy is given to particles, they gain kinetic energy and begin to vibrate or move more rapidly. This increase in movement causes the particles to spread out and the substance to expand, leading to a rise in temperature.
What is average kinetic energy of the particles of matter in a given space?
The average kinetic energy of particles in matter is directly related to the temperature of that matter. As temperature increases, the average kinetic energy of particles also increases. This energy is due to the random motion of particles within the substance.
What is. the collective name of high-energy particles and rays given off by the nuclei of atoms?
The energy is called nuclear radiation, high energy particles and rays that are emitted by the nuclei of some atoms.
What happens to particles of a liquid as the liquid boils?
the particles are given more energy.
How does particle theory explain what density is?
Particle theory explains density as the measure of mass per unit volume of a substance. It states that substances are made up of particles that are closely packed together in a given volume. Denser substances have more particles in a given volume, while less dense substances have fewer particles spread out in the same volume.
What are 3 kinds of radiation given off by radioactive substances?
The three types of radiation given off by radioactive substances are alpha particles, beta particles, and gamma rays. Alpha particles are the least penetrating, beta particles are more penetrating than alpha particles, and gamma rays are the most penetrating and dangerous type of radiation.
What is the Boltzmann distribution equation and how is it used to describe the distribution of particles in a system?
The Boltzmann distribution equation is a formula that describes how particles are distributed in a system at a given temperature. It shows the relationship between the energy levels of particles and their probabilities of occupying those levels. This equation is used in physics to predict the distribution of particles in a system based on their energy levels and temperature.
What is the collective name of high-energy particles and rays given off by the nuclei of atoms?
The energy is called nuclear radiation, high energy particles and rays that are emitted by the nuclei of some atoms.
Is it true that the more particles of an object has at a given temperature the more thermal energy it has?
Yes, the more particles an object has at a given temperature, the more thermal energy it has because there are more particles moving and vibrating. This leads to a higher overall kinetic energy of the system.
Is humidity energy is humidity a type of energy?
no, energy cannot be created or destroyed. particles are not given energy by humidity
The more particles a substance has at a given temperature?
the more thermal energy it has
The energy and particles given off during a nuclear reaction are called?
Radiation
What happens to particles when thermal energy is given to them?
When thermal energy is given to particles, they gain kinetic energy and begin to vibrate or move more rapidly. This increase in movement causes the particles to spread out and the substance to expand, leading to a rise in temperature.
What word is used to describe a reaction in which energy is given out?
exothermic
What is average kinetic energy of the particles of matter in a given space?
The average kinetic energy of particles in matter is directly related to the temperature of that matter. As temperature increases, the average kinetic energy of particles also increases. This energy is due to the random motion of particles within the substance.
