Quantized means that the physical quantity can only take on certain specific values, and not any value within a continuous range. This is often seen in phenomena like energy levels in atoms or the quantization of angular momentum in quantum mechanics.
To say that a physical quantity is quantized means that it can only take on discrete values or multiples of a fundamental unit. Conservation of a physical quantity means that the total amount of that quantity remains constant over time in a closed system, even if it may change forms.
When a quantity is quantized, it means that it can only take on discrete, specific values rather than any continuous value. This is often seen in physical phenomena such as the quantization of energy levels in atoms or the quantization of charge in elementary particles.
When we say that energy levels in atoms are quantized, we mean that electrons can only exist at specific energy levels and cannot exist between these levels. This concept impacts the behavior of electrons within an atom by determining the specific orbits or shells they can occupy, leading to the formation of distinct energy levels and the emission or absorption of specific amounts of energy when electrons move between these levels.
Many do. For instance, you would probably agree that your own height and weight are physical quantities. Each of these has a magnitude or size and a unit of measurement. They might be, say, 157 cm and 50 kg.
In a vector quantity, it is important to specify a direction. In a scalar quantity, it isn't. Vectors (such as force) have a magnitude (size) and a direction (such as North). Scalars have only a magnitude.
To say that a physical quantity is quantized means that it can only take on discrete values or multiples of a fundamental unit. Conservation of a physical quantity means that the total amount of that quantity remains constant over time in a closed system, even if it may change forms.
When a quantity is quantized, it means that it can only take on discrete, specific values rather than any continuous value. This is often seen in physical phenomena such as the quantization of energy levels in atoms or the quantization of charge in elementary particles.
A Scalar Quantity is a physical quantity which has only magnitude and no direction associated with it . For eg,mass is a scalar quantity beause it has only magnitude (say 5 kg)but has no direction in which the magnitude acts towards.on the other hand a physical quantity which has both magnitude and direction is called a vector quantity.like weight is a vector quantity because it has magnitude along with direction(i.e. it always acts in the downward direction.
Quantity is "cantidad'.
Quantity Surveyor is حاسب كميات and you can say it as haseb kmyat
When we say that energy levels in atoms are quantized, we mean that electrons can only exist at specific energy levels and cannot exist between these levels. This concept impacts the behavior of electrons within an atom by determining the specific orbits or shells they can occupy, leading to the formation of distinct energy levels and the emission or absorption of specific amounts of energy when electrons move between these levels.
Many do. For instance, you would probably agree that your own height and weight are physical quantities. Each of these has a magnitude or size and a unit of measurement. They might be, say, 157 cm and 50 kg.
It is a divison of sorts... think of a checker board. When you move the pieces you move one space forward or one space back. The starting and ending postion of the piece could be considered the quantized existance of the piece. Motion and time on the otherhand are generally considered continous or flowing. Going back to the checkerboard, as you move the piece from one space to the next, you have to pass ever place inbetween. The checker doesn't just disappear and reappear. In science, as particles get smaller and smaller they stop behaving by the same rules as larger masses. Their motion and existance can become quantized--for instance in chemistry when talking about electron states, it is useful to think of the electrons existing at quantized states or enegery levels.
We can say current is a zero rank tensor quantity.
if someone is being mean to you say you hate them
Yesw,I would say it does
In a vector quantity, it is important to specify a direction. In a scalar quantity, it isn't. Vectors (such as force) have a magnitude (size) and a direction (such as North). Scalars have only a magnitude.