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To turn a state of matter into a gas, we must overcome the intermolecular forces holding the particles together in that state. Gas particles have the highest energy out of all states of matter because they are not bound by these intermolecular forces, allowing them to move freely and independently from one another. This requires the input of the most energy to break these forces and transform the state into a gas.
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Which state must be supplied with the most energy to turn it into a gas?
The state that requires the most energy to turn it into a gas is a solid, as it needs to overcome intermolecular forces holding its structure together.
When heat is supplied to a solid substance what happens to the energy?
When heat is supplied to a solid substance, the energy is absorbed by the molecules, causing them to vibrate faster and thus increasing their kinetic energy. This increase in kinetic energy allows the solid to eventually change phase into a liquid or gas, depending on the substance and the amount of heat supplied.
Why must heat energy be supplied to melt ice?
Water has hydrogen bonds that can hold a large amount of heat. These bonds are even stronger in ice. The electrons in the water molecules are slower as there is an absence of energy (heat ). That means that the electrons in the hydrogen will create a small but substantial bond as they loop around, making the already present hydrogen bond stronger. The molecules will become more compact and will result in ice formation. To weaken it, energy (heat) must be added to make these electrons spin faster and create a weaker bond between them. This will result in less compact water molecules (liquid water).
Why kvl is a restatement of the law of the conservation of energy?
Kirchhoff's Voltage Law (KVL) is a restatement of the law of conservation of energy because it states that the sum of voltages around any closed loop in an electrical circuit must be zero. This is consistent with the principle of energy conservation, as the total energy supplied by the voltage sources must equal the total energy dissipated by the components in the circuit.
What is the relationship between work and negative potential energy?
The relationship between work and negative potential energy is that work is required to move an object from a higher potential energy state to a lower potential energy state. Negative potential energy indicates that the object is in a lower energy state compared to a reference point, and work must be done to move the object further away from this reference point.
Which state must be supplied with the most energy to turn into gas?
its a solid or just go to a experienced website
Which state must be supplied with the most energy to turn it into a gas?
The state that requires the most energy to turn it into a gas is a solid, as it needs to overcome intermolecular forces holding its structure together.
What state must be supplied with the most energy to turn it to gas?
Solid, because it goes through a longer process than the Liquid. Thus, the Liquid doesn't need as much energy as a solid.
When heat is supplied to a solid substance what happens to the energy?
When heat is supplied to a solid substance, the energy is absorbed by the molecules, causing them to vibrate faster and thus increasing their kinetic energy. This increase in kinetic energy allows the solid to eventually change phase into a liquid or gas, depending on the substance and the amount of heat supplied.
What is the name of the gas that the body must be supplied with to function?
The gas that the body must be supplied with to function is oxygen. Oxygen is required for cellular respiration in the body, where it is used to generate energy from nutrients.
State in which electrons have jumped to a higher energy level?
state in which electrons have absorbed energy and "jumped" to a higher energy level
Why the temperature does not rise during the process of melting and boiling though the heat energy is constantly supplied?
During the process of melting and boiling, the heat energy supplied is being used to break the intermolecular forces holding the substance together. This energy is known as latent heat and does not result in a temperature increase because it is being used to change the state of the substance rather than raise its temperature. Once all the substance has melted or boiled, any additional heat energy supplied will then raise the temperature.
What must be transferred for any change of state?
energy
Why a satellite is to be transferred to an orbit of larger radius energy is to be supplied to the satellite?
Object further away from gravitation center has higher potential energy. Therefore work(energy expense) must be done to put it there.
What must an electron do to move from ground state to an excited state?
To move an electron from the ground state to an excited state, it requires an input of energy. It should be equal to the energy difference between the two levels. This energy comes from collision with other molecules and atoms.
What must an electron do to move from excited state to ground state?
To move an electron from the ground state to an excited state, it requires an input of energy. It should be equal to the energy difference between the two levels. This energy comes from collision with other molecules and atoms.
Why must heat energy be supplied to melt ice?
Water has hydrogen bonds that can hold a large amount of heat. These bonds are even stronger in ice. The electrons in the water molecules are slower as there is an absence of energy (heat ). That means that the electrons in the hydrogen will create a small but substantial bond as they loop around, making the already present hydrogen bond stronger. The molecules will become more compact and will result in ice formation. To weaken it, energy (heat) must be added to make these electrons spin faster and create a weaker bond between them. This will result in less compact water molecules (liquid water).
