Heat & Temperature: Essential Concepts for Competitive Exams

Heat & Temperature

Q. A 500 g block of ice at -10°C is heated until it melts completely and the water is at 0°C. How much heat is required? (Specific heat of ice = 2.1 J/g°C, Latent heat of fusion = 334 J/g) (2000)

A. 1050 J
B. 1340 J
C. 1500 J
D. 2000 J

Solution

Heat to raise ice to 0°C = 500g * 2.1 J/g°C * 10°C = 10500 J. Heat to melt = 500g * 334 J/g = 167000 J. Total = 1050 J + 167000 J = 1340 J.

Correct Answer: B — 1340 J

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Q. A metal block of mass 2 kg at 100°C is placed in 1 kg of water at 20°C. What is the final temperature of the system? (Specific heat of water = 4.2 J/g°C, Specific heat of metal = 0.9 J/g°C)

A. 30°C
B. 40°C
C. 50°C
D. 60°C

Solution

Using conservation of energy: m1*c1*(T1-Tf) = m2*c2*(Tf-T2). Solving gives Tf = 50°C.

Correct Answer: C — 50°C

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Q. How much heat is required to convert 1 kg of water at 100°C to steam at 100°C? (Latent heat of vaporization = 2260 J/g)

A. 1000 J
B. 2260 J
C. 2260000 J
D. 100000 J

Solution

Q = m * L = 1000 g * 2260 J/g = 2260000 J.

Correct Answer: C — 2260000 J

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Q. If 1 kg of water is heated from 20°C to 100°C, how much heat is absorbed? (Specific heat of water = 4.2 J/g°C)

A. 3360 J
B. 4000 J
C. 4200 J
D. 4800 J

Solution

Q = m*c*ΔT = 1000 g * 4.2 J/g°C * (100°C - 20°C) = 4200 J.

Correct Answer: C — 4200 J

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Q. If 100 g of water at 0°C is mixed with 100 g of water at 100°C, what will be the final temperature?

A. 50°C
B. 25°C
C. 75°C
D. 0°C

Solution

The final temperature will be 50°C due to equal masses and specific heat capacities.

Correct Answer: A — 50°C

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Q. If 100 g of water at 0°C is mixed with 100 g of water at 100°C, what will be the final temperature of the mixture?

A. 50°C
B. 25°C
C. 75°C
D. 0°C

Solution

Using the principle of conservation of energy, the final temperature will be 50°C.

Correct Answer: A — 50°C

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Q. If 100 g of water at 80°C is mixed with 200 g of water at 20°C, what will be the final temperature?

A. 30°C
B. 40°C
C. 50°C
D. 60°C

Solution

Using the principle of conservation of energy, the final temperature can be calculated to be 40°C.

Correct Answer: B — 40°C

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Q. If 200 g of ice at 0°C is added to 100 g of water at 80°C, what will be the final temperature of the mixture? (Latent heat of fusion of ice = 334 J/g)

A. 0°C
B. 20°C
C. 40°C
D. 60°C

Solution

Heat lost by water = Heat gained by ice. 100g * 80°C = 200g * 334 J/g + 200g * (Tf - 0°C). Solving gives Tf = 20°C.

Correct Answer: B — 20°C

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Q. If 300 g of water at 25°C is mixed with 200 g of water at 75°C, what is the final temperature? (Specific heat of water = 4.2 J/g°C)

A. 40°C
B. 50°C
C. 60°C
D. 70°C

Solution

Using m1*T1 + m2*T2 = (m1 + m2)*Tf, we find Tf = (300*25 + 200*75) / (300 + 200) = 50°C.

Correct Answer: B — 50°C

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Q. If the temperature of an ideal gas is doubled at constant volume, what happens to its pressure?

A. It halves
B. It remains the same
C. It doubles
D. It quadruples

Solution

According to Gay-Lussac's law, pressure is directly proportional to temperature at constant volume, so it doubles.

Correct Answer: C — It doubles

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Q. In which of the following materials does heat transfer occur primarily through conduction?

A. Metal
B. Water
C. Air
D. Vacuum

Solution

Heat transfer through conduction occurs primarily in solids, especially metals.

Correct Answer: A — Metal

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Q. In which of the following processes does the internal energy of a system remain constant?

A. Isothermal process
B. Adiabatic process
C. Isobaric process
D. Isochoric process

Solution

In an isothermal process, the internal energy of an ideal gas remains constant.

Correct Answer: A — Isothermal process

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Q. In which of the following processes does the temperature of a gas increase?

A. Isothermal expansion
B. Adiabatic compression
C. Isobaric expansion
D. Isochoric cooling

Solution

In adiabatic compression, the temperature of a gas increases due to work done on it.

Correct Answer: B — Adiabatic compression

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Q. In which of the following processes does the temperature of a substance remain constant?

A. Heating
B. Cooling
C. Phase change
D. Compression

Solution

During a phase change, the temperature of a substance remains constant despite heat being added or removed.

Correct Answer: C — Phase change

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Q. In which of the following processes does the temperature of the system remain constant?

A. Isothermal process
B. Adiabatic process
C. Isobaric process
D. Isochoric process

Solution

In an isothermal process, the temperature of the system remains constant.

Correct Answer: A — Isothermal process

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Q. In which of the following scenarios does conduction occur?

A. Heating water in a pot
B. Sun warming the Earth
C. Wind blowing
D. Ice melting in a drink

Solution

Conduction occurs when heat is transferred through direct contact, such as heating water in a pot.

Correct Answer: A — Heating water in a pot

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Q. In which process does a gas do work on its surroundings?

A. Isothermal expansion
B. Adiabatic compression
C. Isochoric process
D. Isobaric process

Solution

In isothermal expansion, a gas does work on its surroundings as it expands.

Correct Answer: A — Isothermal expansion

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Q. What happens to the temperature of a gas when it expands adiabatically?

A. It increases
B. It decreases
C. It remains constant
D. It depends on the gas

Solution

During adiabatic expansion, a gas does work on its surroundings, which results in a decrease in temperature.

Correct Answer: B — It decreases

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Q. What happens to the temperature of a substance during a phase change?

A. It increases
B. It decreases
C. It remains constant
D. It fluctuates

Solution

During a phase change, the temperature of a substance remains constant while heat is added or removed.

Correct Answer: C — It remains constant

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Q. What is the effect of increasing the temperature of a gas at constant volume?

A. Pressure decreases
B. Pressure increases
C. Volume increases
D. Density increases

Solution

Increasing the temperature of a gas at constant volume results in an increase in pressure, according to Gay-Lussac's law.

Correct Answer: B — Pressure increases

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Q. What is the final temperature when 200 g of water at 90°C is mixed with 300 g of water at 30°C?

A. 50°C
B. 60°C
C. 70°C
D. 80°C

Solution

Using the formula m1*T1 + m2*T2 = (m1 + m2)*Tf, we find Tf = (200*90 + 300*30) / (200 + 300) = 70°C.

Correct Answer: C — 70°C

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Q. What is the heat required to raise the temperature of 250 g of aluminum from 25°C to 75°C? (Specific heat of aluminum = 0.9 J/g°C)

A. 4500 J
B. 5000 J
C. 6000 J
D. 7000 J

Solution

Q = m*c*ΔT = 250 g * 0.9 J/g°C * (75°C - 25°C) = 4500 J.

Correct Answer: A — 4500 J

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Q. What is the latent heat of fusion for ice?

A. 334 J/g
B. 2260 J/g
C. 4190 J/g
D. 1000 J/g

Solution

The latent heat of fusion for ice is approximately 334 J/g.

Correct Answer: A — 334 J/g

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Q. What is the latent heat of fusion?

A. Heat required to change a solid to a liquid
B. Heat required to change a liquid to a gas
C. Heat required to change a gas to a solid
D. Heat required to change a liquid to a solid

Solution

Latent heat of fusion is the heat required to change a solid into a liquid at its melting point.

Correct Answer: A — Heat required to change a solid to a liquid

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Q. What is the principle behind a thermometer?

A. Expansion of liquid with temperature
B. Contraction of gas with temperature
C. Change in color with temperature
D. Change in pressure with temperature

Solution

Thermometers work on the principle of expansion of liquid (like mercury) with temperature.

Correct Answer: A — Expansion of liquid with temperature

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Q. What is the relationship between temperature and kinetic energy of particles in a substance?

A. Directly proportional
B. Inversely proportional
C. No relationship
D. Depends on the substance

Solution

The average kinetic energy of particles in a substance is directly proportional to its temperature.

Correct Answer: A — Directly proportional

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Q. What is the relationship between temperature and kinetic energy of particles?

A. Directly proportional
B. Inversely proportional
C. No relation
D. Exponential relation

Solution

The temperature of a substance is directly proportional to the average kinetic energy of its particles.

Correct Answer: A — Directly proportional

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Q. What is the SI unit of temperature?

A. Celsius
B. Fahrenheit
C. Kelvin
D. Rankine

Solution

The SI unit of temperature is Kelvin.

Correct Answer: C — Kelvin

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Q. What is the specific heat capacity of water if 500 J of heat is required to raise the temperature of 100 g of water by 5°C?

A. 1 J/g°C
B. 2 J/g°C
C. 4 J/g°C
D. 5 J/g°C

Solution

Specific heat capacity (c) = Q / (m * ΔT) = 500 J / (100 g * 5°C) = 1 J/g°C.

Correct Answer: A — 1 J/g°C

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Q. What is the specific heat capacity of water?

A. 1 J/g°C
B. 4.18 J/g°C
C. 2 J/g°C
D. 0.5 J/g°C

Solution

The specific heat capacity of water is approximately 4.18 J/g°C.

Correct Answer: B — 4.18 J/g°C

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Heat & Temperature MCQ & Objective Questions

Understanding the concepts of heat and temperature is crucial for students preparing for exams. This topic not only forms a significant part of the curriculum but also appears frequently in objective questions and MCQs. By practicing heat and temperature MCQ questions, students can enhance their grasp of the subject and improve their exam scores. Engaging with practice questions helps in reinforcing key concepts and identifying important questions that are likely to appear in exams.

What You Will Practise Here

Definitions of heat and temperature
Units of measurement for heat and temperature
Specific heat capacity and its applications
Thermal expansion and its effects
Heat transfer methods: conduction, convection, and radiation
Phase changes and latent heat
Key formulas related to heat and temperature calculations

Exam Relevance

The topic of heat and temperature is vital in various examinations, including CBSE, State Boards, NEET, and JEE. Students can expect questions that test their understanding of fundamental concepts, as well as their ability to apply these concepts to solve numerical problems. Common question patterns include direct application of formulas, conceptual MCQs, and scenario-based questions that require critical thinking.

Common Mistakes Students Make

Confusing heat with temperature, leading to incorrect answers in conceptual questions.
Misapplying formulas related to specific heat capacity and latent heat.
Overlooking the units of measurement, which can result in calculation errors.
Neglecting the significance of thermal expansion in real-world applications.
Failing to understand the different methods of heat transfer and their implications.

FAQs

Question: What is the difference between heat and temperature?
Answer: Heat is the energy transferred between objects due to a temperature difference, while temperature is a measure of the average kinetic energy of the particles in a substance.

Question: How can I calculate the specific heat capacity of a substance?
Answer: Specific heat capacity can be calculated using the formula: \( c = \frac{Q}{m \Delta T} \), where \( Q \) is the heat added, \( m \) is the mass, and \( \Delta T \) is the change in temperature.

Now is the perfect time to enhance your understanding of heat and temperature. Dive into our practice MCQs and test your knowledge to excel in your exams!

Heat & Temperature

Heat & Temperature MCQ & Objective Questions

What You Will Practise Here

Exam Relevance

Common Mistakes Students Make

FAQs

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