Water has the highest specific heat capacity among common materials.
Silver has the highest specific heat capacity among the materials listed (0.235 J/g°C), followed by alcohol (0.58 J/g°C), sand (0.84 J/g°C), and carbon (0.71 J/g°C).
The swimming pool has the highest specific heat, as water has a higher specific heat capacity than both grass and asphalt. The parking lot has the lowest specific heat among the three materials. The parking lot will require the least energy to increase its temperature, as it has the lowest specific heat capacity, meaning it heats up quickly compared to the other two materials.
Gold has the highest specific gravity among wood, water, quartz, and gold. Its specific gravity is around 19.3 g/cm3, which is much greater than the other materials listed.
Gold has the highest specific gravity among wood, water, gold, and quartz. Gold has a specific gravity of around 19.3 g/cm3, making it much denser than the other materials listed. Wood has a specific gravity ranging from 0.3 to 1.0 g/cm3, water has a specific gravity of 1.0 g/cm3, and quartz has a specific gravity of around 2.65 g/cm3.
Diamond has the highest refractive index among common materials, with a value of about 2.42.
No. Metals have a relatively low specific heat.
The order in which the substances will exhibit the highest increase in temperature is C, B, A. This is because substance C has the lowest heat capacity, so it will increase in temperature the most with the same amount of heat added. Substance A, with the highest heat capacity, will increase the least.
Water is used as coolant in car radiators because it has high specific heat capacity of 4200 Joules. It has the highest specific heat capacity than any other substance. That is why it is used as coolant in car radiators
Water has a higher Specific Heat than soil. The very highest is ammonia.
The substance with the highest specific heat capacity will experience the smallest rise in temperature with the same amount of heat energy added. Water has the highest specific heat capacity among common substances, so it will experience the least rise in temperature when a fixed amount of energy is added.
Silver has the highest specific heat capacity among the materials listed (0.235 J/g°C), followed by alcohol (0.58 J/g°C), sand (0.84 J/g°C), and carbon (0.71 J/g°C).
The swimming pool has the highest specific heat, as water has a higher specific heat capacity than both grass and asphalt. The parking lot has the lowest specific heat among the three materials. The parking lot will require the least energy to increase its temperature, as it has the lowest specific heat capacity, meaning it heats up quickly compared to the other two materials.
Water has the highest specific heat capacity of any common substance. This means it can absorb a large amount of heat energy before its temperature changes significantly. This property of water helps regulate Earth's climate and moderates temperature changes in both aquatic and terrestrial environments.
Water has the highest specific heat among common earth materials, with a specific heat capacity of about 4.18 joules per gram per degree Celsius (J/g°C). This high specific heat allows water to absorb and store large amounts of heat, making it essential for regulating temperatures in the environment. In contrast, most minerals and earth materials, such as soil and rocks, have significantly lower specific heat capacities.
Water has the highest specific heat capacity among the three items. This means it can absorb or release a lot of heat energy without undergoing a large change in temperature. Sand and towels have lower specific heat capacities compared to water.
The substance that requires the largest amount of energy to increase the temperature is the one with the highest specific heat capacity. Water has one of the highest specific heat capacities of commonly found substances, so it would require the largest amount of energy to increase the temperature of 20 grams by 1.0 K.
Gold has the highest specific gravity of the three materials listed. Wood has the lowest specific gravity, while quartz falls in between wood and gold in terms of specific gravity.