no
The mass of the International Space Station is approximately 420,000 kilograms.
The unit of mass that is used in space is the same unit of mass that is used on Earth. you can use Kg, g, pounds, tones...
Your mass would be 48kg both on Earth and in space as mass remains constant regardless of location. Weight, on the other hand, would vary depending on the gravitational pull of the celestial body you are on.
Usually, large size= large mass. The more mass you have the greater the gravity, but it also depends on how much mass is in a certain amount of space. For example if a large amount of mass spread over a large area the gravity will be less than if all that mass was condensed into a single point.
When the boosters are separated from the space vehicle, the mass of the vehicle will decrease because it is losing the mass of the boosters. This reduction in mass allows the remaining vehicle to accelerate more efficiently and achieve its intended trajectory in space.
Matter occupies space and has mass. Matter is made up of particles that have volume and hence occupy space. Mass is a measure of the amount of matter in an object, and it is related to the number and type of particles that compose the object.
because the earth has mass. Gravity is a the force of attraction that is related to the mass of an object. The greater the mass, the stronger the force of gravity.
They are related because in order for something to have matter, it must also have mass.
They are related, sort of. Mass is a measurement of the amount of matter - density is a measurement of the amount of matter in a given amount of space.
Yes, mass and volume are related because they are both properties of matter. Mass refers to the amount of matter in an object, while volume is the amount of space that the object occupies. The relationship between mass and volume can be used to calculate density, which is the mass of an object per unit volume.
Matter does.
Space and time are related through the concept of spacetime, which is a four-dimensional continuum where the three dimensions of space are combined with the dimension of time. This relationship is described by the theory of relativity, which states that space and time are interconnected and can be affected by the presence of mass and energy.
The mass of an object is a measure of the amount of matter it contains. The object's mass determines its weight (force of gravity acting on it) and influences its inertia (resistance to changes in motion). The relationship between an object's mass and its weight is given by the equation: weight = mass x gravity.
Mendeleev arranged the elements in order of increasing related Atomic Mass
Mass is the amount of matter in an object, while volume is the amount of space that object occupies. The two are related because denser objects have more mass in a given volume, while less dense objects have less mass for the same volume. Mathematically, density is calculated as mass divided by volume.
The mass of space in our universe is 2.1e53 kg.
Yes, but not all particles have to have mass. remember that those particles (photons... etc) aren't matter at all but gauge bosons. Gauge bosons occupy a single zero-dimentional point (except for when it's a wave; see particle-wave duality), because they have no mass, and thus don't take up space.