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How does the energy of the energy of the particles in a certain amount of liquid copper compare to the energy of the molecules in the same amount of liquid water why?
The energy of particles in liquid copper is generally higher than the energy of molecules in liquid water because the metallic bonding in copper leads to stronger forces between the particles. These stronger forces result in higher energy required to break the bonds between the particles in copper compared to the weaker intermolecular forces in water.
How does changing the initial temperature of copper affect how much heat energy?
Changing the initial temperature of copper will affect the amount of heat energy transferred. A higher initial temperature of copper will result in a greater amount of heat energy being transferred to the surroundings, while a lower initial temperature will result in less heat energy being transferred. This is based on the principles of thermal equilibrium and the heat capacity of copper.
How does changing the initial mass of the copper affect how much energy it has?
Changing the initial mass of the copper will affect the total amount of energy the copper has. More mass means more particles requiring energy for movement and vibration, resulting in a higher total energy. Conversely, less mass will result in lower total energy due to fewer particles needing energy for motion.
When you measure the temperature of hot soup you are measuring the?
... amount of energy in the soup molecules.
What two forms of energy could best be used to increase the temperature of a sheet of copper?
Electricity and heat energy are the two forms that could best be used to increase the temperature of a sheet of copper. Electricity can be used in the form of an electric current through the copper, while heat energy can be applied to the surface of the copper through methods such as heating coils or flames.
How does the energy of the energy of the particles in a certain amount of liquid copper compare to the energy of the molecules in the same amount of liquid water why?
The energy of particles in liquid copper is generally higher than the energy of molecules in liquid water because the metallic bonding in copper leads to stronger forces between the particles. These stronger forces result in higher energy required to break the bonds between the particles in copper compared to the weaker intermolecular forces in water.
How does changing the initial temperature of copper affect how much heat energy?
Changing the initial temperature of copper will affect the amount of heat energy transferred. A higher initial temperature of copper will result in a greater amount of heat energy being transferred to the surroundings, while a lower initial temperature will result in less heat energy being transferred. This is based on the principles of thermal equilibrium and the heat capacity of copper.
How can astronemers infer how hot a star is?
By the amount of energy that they are giving out.
How much copper is in a hot water heater?
"How much" as a question is quite vague. Some hot water heaters are comprised of copper only. So this now depends on the size of the hot water heater. Some hot water heaters have no copper whatsoever.
How does the energy of the particles in a certain amount of liquid copper compare to the energy of the molecules in the same amount of liquid water?
The energy of particles in liquid copper is higher than that in liquid water due to the differences in their atomic structures. Copper, being a metal, has loosely bound electrons that contribute to higher energy levels compared to water molecules, which are composed of covalently bonded hydrogen and oxygen atoms. Therefore, the average kinetic energy of particles in liquid copper is greater than that in liquid water.
How does changing the initial temperature of the copper affect how much heat energy it has?
Changing the initial temperature of the copper will affect the amount of heat energy it has because temperature is directly related to the kinetic energy of the particles in the copper. A higher initial temperature means the particles have more kinetic energy and therefore more heat energy. Conversely, a lower initial temperature means less heat energy present in the copper.
How does changing the initial mass of the copper affect how much energy it has?
Changing the initial mass of the copper will affect the total amount of energy the copper has. More mass means more particles requiring energy for movement and vibration, resulting in a higher total energy. Conversely, less mass will result in lower total energy due to fewer particles needing energy for motion.
How much copper inside a hot water heater?
The amount of copper inside a hot water heater varies depending on the size and design of the unit. Typically, copper is used in the construction of the heat exchanger, pipes, and tubing within a hot water heater. Small residential units may contain a few pounds, while larger commercial units can have several pounds of copper components.
How much energy is saved when Copper is recycled instead of mined?
Recycling copper saves fifteen percent of the energy used in producing the same amount from copper ore. Recycled copper has exactly the same qualities as copper from ore, so it can be recycled over and over without any loss. Copper is non renewable, so it is important to conserve it. Energy saved means fewer greenhouse gas emissions from the fossil fuel saved.
Why is copper used for hot water pipes?
Copper is used as hot water pipes because the copper will not corrode when the hot water goes through the pipes
How much is required to vaporize 2 kg of copper?
9460 kJ
When you measure the temperature of hot soup you are measuring the?
... amount of energy in the soup molecules.
