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The amount of energy used today largely determines the amount of heat-holding gases, such as carbon dioxide, emitted into the atmosphere. Most energy production methods involve burning fossil fuels, which release these gases when burned. Thus, the more energy consumed, the more emissions are produced, contributing to climate change.
From least thermal energy to most: solid, liquid, gas. In solids, particles are closely packed and have the least amount of thermal energy. Liquids have more thermal energy than solids because their particles can flow and move around. Gases have the most thermal energy as their particles move freely and rapidly.
Gases with the same average kinetic energy move at the same velocity because kinetic energy is directly related to the speed of gas particles. When gases have the same average kinetic energy, it means they have the same amount of energy to move, resulting in them moving at the same speed.
The gaseous state of matter typically has the largest amount of kinetic energy because gas particles move around freely and at high speeds. This movement results in a significant amount of kinetic energy in gases.
In general, gases have the most kinetic energy, followed by liquids, and then solids have the least kinetic energy. This is because the particles in gases have high energy and move freely, while the particles in liquids have less freedom but more energy than solids, where the particles have the least freedom and lowest energy.
Plasma, then gases.
The amount of energy used today largely determines the amount of heat-holding gases, such as carbon dioxide, emitted into the atmosphere. Most energy production methods involve burning fossil fuels, which release these gases when burned. Thus, the more energy consumed, the more emissions are produced, contributing to climate change.
Gases.
From least thermal energy to most: solid, liquid, gas. In solids, particles are closely packed and have the least amount of thermal energy. Liquids have more thermal energy than solids because their particles can flow and move around. Gases have the most thermal energy as their particles move freely and rapidly.
Gases
Gases with the same average kinetic energy move at the same velocity because kinetic energy is directly related to the speed of gas particles. When gases have the same average kinetic energy, it means they have the same amount of energy to move, resulting in them moving at the same speed.
The gaseous state of matter typically has the largest amount of kinetic energy because gas particles move around freely and at high speeds. This movement results in a significant amount of kinetic energy in gases.
Solid, as they have the least amount of energy. Solid, as they have the least amount of energy. Solid, as they have the least amount of energy. Solid, as they have the least amount of energy.
In general, gases have the most kinetic energy, followed by liquids, and then solids have the least kinetic energy. This is because the particles in gases have high energy and move freely, while the particles in liquids have less freedom but more energy than solids, where the particles have the least freedom and lowest energy.
Gram for gram, fats store the most amount of energy in the body, approximately double the amount of energy carbohydrates store.
Solids have the lowest amount of kinetic energy compared to liquids and gases. This is because the particles in a solid are packed closely together and have limited freedom of movement, resulting in lower energy levels.
Solids typically have less energy compared to liquids and gases because their particles are more closely packed and have less freedom of movement. However, the amount of energy in a substance also depends on its temperature and phase.