Which is true about the total energy at point S? (1 point) Responses At point S, the total energy is double the total energy of the system, as new energy is created as the potential energy increases. At point S, the total energy is double the total energy of the system, as new energy is created as the potential energy increases. At point S, the total energy is half of the system’s total energy, as kinetic energy was destroyed. At point S, the total energy is half of the system’s total energy, as kinetic energy was destroyed. At point S, the total energy is equal to the total energy of the system because energy kinetic energy has been transformed to potential energy. At point S, the total energy is equal to the total energy of the system because energy kinetic energy has been transformed to potential energy. At point S, the total energy is three times the total energy of the system, as kinetic energy was increased.
At point S, the total energy is equal to the total energy of the system because energy kinetic energy has been transformed to potential energy.
At point S, the total energy is equal to the total energy of the system because kinetic energy has been transformed to potential energy.
To determine which statement is true about the total energy at point S, we need to understand the concept of conservation of energy and how energy is transformed within a system.
According to the law of conservation of energy, energy cannot be created or destroyed, but it can only be transformed from one form to another. In this scenario, we have two forms of energy: kinetic energy and potential energy.
Let's examine each statement to determine its validity:
1. "At point S, the total energy is double the total energy of the system, as new energy is created as the potential energy increases."
This statement is not true. As mentioned earlier, energy cannot be created or destroyed. It can only be transformed. So, it is not possible for new energy to be created during the increase in potential energy alone.
2. "At point S, the total energy is half of the system's total energy, as kinetic energy was destroyed."
This statement is also not true. Similar to the previous statement, energy cannot be destroyed. Therefore, the total energy cannot be reduced to half by destroying kinetic energy.
3. "At point S, the total energy is equal to the total energy of the system because kinetic energy has been transformed into potential energy."
This statement holds true. When an object moves from a position of lower potential energy to higher potential energy, its kinetic energy decreases while its potential energy increases. Since the total energy of the system is conserved, the decrease in kinetic energy is exactly compensated by the increase in potential energy, resulting in the total energy at point S being equal to the total energy of the system.
4. "At point S, the total energy is three times the total energy of the system, as kinetic energy was increased."
This statement is not true. If kinetic energy was increased, there would be a violation of the law of conservation of energy, as kinetic energy cannot be created. Therefore, the total energy cannot be three times the total energy of the system.
Based on the explanations above, we can conclude that the correct statement is:
"At point S, the total energy is equal to the total energy of the system because kinetic energy has been transformed into potential energy."