An electron has a very small mass compared to larger particles like protons and neutrons. Its mass is approximately 1/1836 times the mass of a proton.
The mass of a large cup of hot chocolate will vary depending on the specific recipe and ingredients used to make it. However, in general, the mass would be measured in grams or kilograms. The capacity of the cup would be measured in milliliters or liters.
Mass
Mass refers to the amount of matter in an object, typically measured in grams or kilograms. Capacity, on the other hand, refers to the amount of space an object can hold or contain, measured in liters or milliliters. They are related in the sense that the larger the mass of an object, the greater its capacity might need to be to hold that mass.
The heat capacity depends on the mass of a material and is expressed in j/K.The specific heat capacity not depends on the mass of a material and is expressed in j/mol.K.
Usually small metals (e.g magnesium etc) have small capacit but large mass Hope it helps :)
A small object with high density, such as a lead weight or a dense metal ball, would have a small capacity but a large mass due to the arrangement of its particles.
An object with a high density, such as a lead ball, can have a small capacity (volume) but a large mass. This is because density is the ratio of an object's mass to its volume, so objects with high density have a lot of mass packed into a small space.
-- a hot-air balloon -- St. Patrick's Cathedral on a snowy day
An Airbus 380. A supertanker.
Large mass amounts.
The same force applied to a small mass will cause a larger acceleration compared to a large mass since acceleration is inversely proportional to mass (F=ma). This means the small mass will experience a greater change in velocity in response to the force compared to the large mass.
Small force on small mass :When we exhale the air the force of exhaled air is less. Tiny particles of less masses are present in the nearer air and they start moving with large velocity. On Large mass : it's well explained in pascal's law. From that we can apply small force on larger mass .
"large density" ===> (relatively large mass) fits into (relatively small volume)
The "sucking" is done by the gravity. A black hole has a large mass, concentrated in a small region of space.The "sucking" is done by the gravity. A black hole has a large mass, concentrated in a small region of space.The "sucking" is done by the gravity. A black hole has a large mass, concentrated in a small region of space.The "sucking" is done by the gravity. A black hole has a large mass, concentrated in a small region of space.
The large block has more mass than the small one. Same principle with rocks.
A thermometer bulb has a small heat capacity because it is designed to quickly respond to temperature changes in the surrounding environment. This allows it to accurately measure and indicate the temperature rapidly.