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Question Some ice cubes placed in a dish melt into water after sometime. Where do the ice cubes get heat for this transformation?
The ice cubes absorb heat from their surroundings, including the air and the surface they are placed on. This heat causes the ice to melt, changing it from a solid state to a liquid state, turning it into water.
Chapter 3: Heat
Heat is a form of energy that flows from hot to cold. Temperature measures hotness/coldness. Clinical thermometer (35-42 degrees C, has kink) and laboratory thermometer (-10 to 110 degrees C, no kink) are used for measurement. Heat transfers by conduction (solids), convection (liquids/gases), and radiation (no medium needed). Dark surfaces absorb more heat; light surfaces reflect more.
Theme: Physics | Difficulty: Age-appropriate for Class VII
Key Formulas & Equations
| Formula / Equation | When to Use |
|---|---|
| Normal body temperature = 37°C | Reference value |
| Clinical range: 35°C – 42°C | For body temperature only |
| Lab thermometer range: −10°C to 110°C | For experiments |
Must-Know Concepts
- Heat is energy (joules); temperature is degree of hotness (°C)
- Clinical thermometer has a kink; lab thermometer does not
- Conduction: heat in solids (metals are conductors, wood/plastic are insulators)
- Convection: heat in liquids/gases by particle movement (sea breeze, land breeze)
- Radiation: heat without medium (Sun to Earth through vacuum)
- Dark clothes absorb heat; light clothes reflect heat
- Wool traps air (insulator), does not produce heat
Common Mistakes to Avoid
- Confusing heat with temperature
- Thinking metals are "cold" — they conduct heat away from hand quickly
- Thinking wool generates heat — it only traps body heat
- Believing radiation needs a medium
Scoring Tips
- Compare clinical and lab thermometer in a table
- Draw sea breeze and land breeze diagrams with arrows
- Give 2 examples each of conduction, convection, radiation