The substance that heats more slowly than other substances could be water. But this idea is based on the high heat capacity of water. It takes more thermal energy (heat) to elevate the temperature of a given amount of water than an equal amount of another substance. But other substances might heat more slowly than water because heat does not travel "into" or "through" them very well. Different experiments may yield different results.
water heats more slowly than many other substances. we just learned this today haha
Due to its molecular properties, water heats more slowly than most other substances. This phenomenon is responsible for many weather patterns.
Hydrogen gas heats more slowly than many other substances. The specific heat capacity of hydrogen gas is 14.30 J / g K.
Water has a pretty high specific heat capacity, so it'll heat slower compared to substances like tin and gold that have low specific heat capacities.
Gold, and several other metals.
Water
the way a substance reacts with other substances is called
Chemical Property
All substances that are water repelling are considered hydrophobic substances. Ex: Oil, Waxes, etc..
Density is specific for each substance. Also the measurement is generally simple.
No. Hydrophobic literally means "afraid of water," so they will repel each other, most likely because the other substance is non-polar.
water
properties of matter that determine how a substance reacts with other substances
properties of matter that determine how a substance reacts with other substances
Polar substances dissolve other polar substances, and nonpolar substances dissolve other nonpolar substances. A polar substance cannot dissolve a polar substance and a nonpolar substance cannot dissolve a polar substance.
It means that a substance cannot dissolve in other substance
Chemical
Chemical
Chemical
Chemical
Solvent
A one element substance is a pure substance. It is not mixed physically or chemically with other substances or elements.
2 or more chemical substances interacting with each other to form a new substance