Gravity
An atom is the basic unit of matter that retains the properties of an element, such as its chemical behavior. Matter, on the other hand, encompasses anything that has mass and volume. In other words, all atoms are matter, but not all matter consists of individual atoms.
Organisms are composed of the same chemical elements that are found in non living matter. The matter is the same, only the organization of that matter is different. In scientific terms, organisms contain information that other matter does not. Otherwise, there is no difference.
Correct answer= "Element" Element is the simplest type of matter; the basic unit from which all other matter is built
1.particles of matter move continously2.particles of matter attract each other3.particles of matter have space between themThe above answers are questionable. #2 is just not true at all as a universal rule (2 protons for example will repel each other). So let me present these:All matter has mass (particle or otherwise)All matter has weight (as a result of having mass)All matter occupies space (even particles)All matter has densityAll matter has inertiaAll matter is impenetrable (this means two particles cannot occupy the same space)All matter is a form of energy. As proven by famous e=mc2Given 7, all matter is conserved (cannot be destroyed)There are more... but those are the big ones.
Not all matter is classified as either a substance or a compound. Matter can also exist in other forms, such as mixtures or elements. Substances are pure forms of matter that have a fixed composition, while compounds are made of two or more elements chemically combined in fixed ratios.
A region in space that exerts a gravitational pull on all matter and light around it is a black hole. Black holes are extremely dense objects with gravity so strong that not even light can escape its pull, leading to their characteristic feature of being invisible, hence the name "black hole."
No. All matter exerts a gravitational pull. We feel Earth's gravity because it has a very large mass.
magnetism.Magnets sometimes attract other magnets, and sometimes repel them. Most objects are not magnetic. There is a force that acts between any two objects and is always attractive. It is called gravity.
Every planet has its own gravitational field; indeed, all matter exerts a gravitational force.
All matter exerts a gravitational pull on matter around it. The moon has a large enough mass to not only set itself in orbit with the earth, but also pull the water of the earth closer to it. This causes the spring and neap tides at full and new moons.
gravity at a downward force of 9.8m/s
Everything with mass ... i.e. ALL the objects of the solar system.
A gas exerts pressure in all directions due to the constant motion of its particles. This pressure is the result of collisions between gas particles and the walls of their container.
Yes. All mass exerts a gravitational pull and gravity exists everywhere. Many objects have much stronger gravity than Earth does.
Yes, all mass exerts a gravitational force on other objects. The strength of the gravitational force is directly related to the mass of the object - the more mass an object has, the stronger its gravitational pull.
The moon's gravity exerts that same amount of pull on all substance on Earth, regardless of what it is made of. We observe a greater effect on water because it can flow freely in response to that pull, not because it is pulled with greater force.
because the density of the particles in space (dark matter) are further appart than stars, planets, etc, etc. So it has less pull than all the other objects that are in space.