Physics Flashcards: Model Energy Transfer Between Objects

What this deck covers

This deck focuses on Model Energy Transfer Between Objects, giving you a quick way to review the definitions, rules, and examples that matter most for Physics.

How to use these flashcards

Work through these flashcards in short sessions. Try to answer each prompt before flipping the card, then revisit any cards you miss until the explanation feels automatic.

Flashcard 1: What is the formula for energy transferred during a phase change at constant temperature?

Answer: $Q=mL$. Latent heat $L$ is energy per unit mass for phase transitions.

Flashcard 2: What is the efficiency formula in terms of useful output energy and total input energy?

Answer: $\eta=\frac{E_{useful}}{E_{in}}$. Efficiency is always less than 1 due to energy losses.

Flashcard 3: What is the law of conservation of energy for energy transfer between objects?

Answer: Total energy is constant; it only transfers or transforms. Energy cannot be created or destroyed in isolated systems.

Flashcard 4: What is the formula for heat transferred due to temperature change (no phase change)?

Answer: $Q=mc\Delta T$. Specific heat formula: $m$ is mass, $c$ is specific heat, $\Delta T$ is temperature change.

Flashcard 5: What is the formula for thermal energy transferred during a phase change at constant temperature?

Answer: $Q=mL$. $m$ is mass and $L$ is latent heat of fusion or vaporization.

Flashcard 6: What is the sign of $Q$ for an object that gains thermal energy from its surroundings?

Answer: $Q>0$. Positive $Q$ means heat flows into the system.

Flashcard 7: What is the sign of $Q$ for an object that loses thermal energy to its surroundings?

Answer: $Q<0$. Negative $Q$ means heat flows out of the system.

Flashcard 8: What is the calorimetry condition for an isolated system of objects exchanging heat?

Answer: $\sum Q=0$. In isolation, total heat gained equals total heat lost.

Flashcard 9: Which energy transfer mechanism requires direct contact: conduction, convection, or radiation?

Answer: Conduction. Heat flows through materials via molecular collisions.

Flashcard 10: Which energy transfer mechanism is heat transfer by bulk fluid motion: conduction, convection, or radiation?

Answer: Convection. Heated fluid rises, cooler fluid sinks, creating circulation.

Flashcard 11: Which energy transfer mechanism can occur through a vacuum: conduction, convection, or radiation?

Answer: Radiation. Electromagnetic waves carry energy without a medium.

Flashcard 12: What is the formula for work done by a constant force parallel to displacement?

Answer: $W=Fd$. Force and displacement must be in same direction.

Flashcard 13: What is the formula for gravitational potential energy change near Earth’s surface?

Answer: $\Delta U_g=mg\Delta h$. Near Earth, $g$ is constant at $9.8\,\text{m/s}^2$.

Flashcard 14: What is the formula for kinetic energy of an object of mass $m$ moving at speed $v$?

Answer: $K=\frac{1}{2}mv^2$. Energy of motion depends on mass and speed squared.

Flashcard 15: What is the formula for power as energy transferred per unit time?

Answer: $P=\frac{\Delta E}{\Delta t}$. Power measures rate of energy transfer or transformation.

Flashcard 16: Identify the correct unit for energy transfer (work or heat): $\text{W}$, $\text{J}$, or $\text{N}$.

Answer: $\text{J}$. Joule is the SI unit for all forms of energy.

Flashcard 17: What is the sign convention for heat $Q$ when energy enters an object as thermal energy?

Answer: $Q>0$. Positive $Q$ means the system gains thermal energy from surroundings.

Flashcard 18: What is the sign convention for work $W$ when work is done on an object by the surroundings?

Answer: $W>0$. Positive $W$ means external forces add energy to the system.

Flashcard 19: State the first-law energy model relating internal energy change, heat, and work.

Answer: $\Delta U=Q+W$. First law states internal energy change equals heat plus work done on system.

Flashcard 20: What is the formula for kinetic energy of an object of mass $m$ and speed $v$?

Answer: $K=\frac{1}{2}mv^2$. Energy of motion depends on mass and square of velocity.

Flashcard 21: What is the formula for gravitational potential energy change near Earth for height change $\Delta h$?

Answer: $\Delta U_g=mg\Delta h$. Work done against gravity equals weight times vertical displacement.

Flashcard 22: What is the formula for thermal energy change of a substance with no phase change?

Answer: $Q=mc\Delta T$. Heat capacity $c$ relates temperature change to thermal energy gained.

Flashcard 23: What is the power formula in terms of energy transferred $\Delta E$ over time interval $\Delta t$?

Answer: $P=\frac{\Delta E}{\Delta t}$. Rate of energy transfer measured in watts (joules per second).

Flashcard 24: Identify the correct energy-conservation model for an isolated system with no external transfer.

Answer: $\Delta E_{\text{system}}=0$. Total energy remains constant when no energy enters or leaves.

Flashcard 25: What is the definition of energy transfer between objects in a physical system?

Answer: Energy moving from one object to another via interactions. Objects exchange energy through forces, collisions, or thermal processes.

Flashcard 26: Which energy-transfer mechanism requires direct contact between objects?

Answer: Conduction. Heat flows through materials when molecules collide and transfer kinetic energy.

Flashcard 27: Which energy-transfer mechanism occurs by bulk motion of a fluid (liquid or gas)?

Answer: Convection. Heated fluid rises, cooler fluid sinks, creating circulation that transfers energy.

Flashcard 28: Which energy-transfer mechanism can occur through empty space with no medium?

Answer: Radiation. Electromagnetic waves carry energy without needing matter to propagate.