Answered

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Which equation correctly relates mechanical energy, thermal energy, and total energy when there is friction present in the system?

A. [tex]E_{\text{thermal}} = E_{\text{total}} + ME[/tex]
B. [tex]E_{\text{thermal}} = \frac{E_{\text{thermal}}}{ME}[/tex]
C. [tex]E_{\text{thermal}} = ME - E_{\text{total}}[/tex]
D. [tex]E_{\text{thermal}} = E_{\text{total}} - ME[/tex]

Sagot :

GinnyAnswer
To properly understand the relationship between mechanical energy, thermal energy, and total energy when there is friction present in the system, let's review the concepts involved:

1. Mechanical Energy (ME): This is the sum of kinetic and potential energy in a system.
2. Thermal Energy (E_thermal): This is the energy dissipated due to friction or other non-conservative forces, often leading to an increase in temperature.
3. Total Energy (E_total): This is the sum of all the energies in the system, including mechanical and thermal energy.

In a system with friction, some of the mechanical energy is converted into thermal energy. This means that the total energy of the system (E_total) is the sum of the remaining mechanical energy (ME) and the thermal energy generated due to friction (E_thermal).

Given these definitions, we can form a relationship:

[tex]\[ E_{\text{total}} = ME + E_{\text{thermal}} \][/tex]

From the above equation, if you solve for thermal energy (E_thermal), you get:

[tex]\[ E_{\text{thermal}} = E_{\text{total}} - ME \][/tex]

This equation correctly shows that the thermal energy is the difference between the total energy and the mechanical energy. Thus, the correct option is:

[tex]\[ \boxed{D. \ E_{\text{thermal}} = E_{\text{total}} - ME} \][/tex]
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