Mass. Weight is different depending on gravity, but mass is always the same. On the Moon an astronaut weighs less, but has the same mass that they have on Earth.
Temperature is a fundamental quantity itself, like length, mass and time. You cannot relate it in this way.
Weight is defined as a product of mass nd acceleration due to gravity. It has both magnitude nd weight. Actually acceleration has both magnitude nd direction so is a vector quantity. The product of vector quantity and a scaler quantity gives us vector quantity. As weight is a product of mass nd acceleration due to gravity so its a vector quantity. Moaz khaliq
No kilogram is the SI unit for fundamental physical quantity namely mass.
WEIGHT is a VECTOR quantity .. because the weight has the direction into the surface of the earth to the down effected by the gravity .. but mass is a scalar quantity like 90 kg .. so .. WEIGHT IS VECTOR ..
Electric charge is a fundamental quantity all its own, like mass, length, and time.
No, weight is not a fundamental quantity.
No, weight is not a fundamental quantity. Though mass is. The reason for adopting this viewpoint is this: the mass of a body is intrinsic to the body itself - e.g. an electron has the same mass anywhere in the universe. The weight of a body is just the gravitational force acting on that body, and obviously depends on the gravitational field it finds itself in. For example, your mass remains the same if you fly to the moon, but your weight on the moon's surface is roughly one-sixth of your weight here on Earth.
Weight is defined as the force that an object of mass M experiences in a gravitational field. Where mass comes from and why it is the quantity which interacts via the gravitational force is a more fundamental and unanswered question in physics.
Temperature is a fundamental quantity itself, like length, mass and time. You cannot relate it in this way.
Mass is a fundamental quantity. It's the amount of 'stuff' that an object is made of. You can't get it from a formula, any more than there's a formula for a person's height or the weight of a bag full of sand. You measure it.
Mass is a quantity that describes the concentration of matter. Mass is an aggregate measure of matter and it also determines the weight of an object.
Weight is a vector quantity. Weight is the mass of a body times the acceleration due to gravity, which is a vector quantity. Weight is in the downward direction.
Weight is defined as a product of mass nd acceleration due to gravity. It has both magnitude nd weight. Actually acceleration has both magnitude nd direction so is a vector quantity. The product of vector quantity and a scaler quantity gives us vector quantity. As weight is a product of mass nd acceleration due to gravity so its a vector quantity. Moaz khaliq
No kilogram is the SI unit for fundamental physical quantity namely mass.
Weight is different from mass because it is a a scalar quantity whereas mass is a vector.
They are different because mass is a measurement of the amount of matter in an object, weight is the quantity of heaviness.
They are different because mass is a measurement of the amount of matter in an object, weight is the quantity of heaviness.