Length is a fundamental physical quantity that measures the distance between two points in space. It is a scalar quantity, meaning it has magnitude but no direction. Length is typically measured in meters in the International System of Units (SI).
Distance is a scalar quantity that represents the physical length between two points in space. It is typically measured in units such as meters or kilometers.
Volume is the physical quantity that has units of length cubed. It represents the amount of three-dimensional space occupied by an object.
The dimensional formula of a physical quantity represents how it is composed of fundamental dimensions like length, mass, and time. For example, the dimensional formula of velocity is [LT^-1] where L represents length and T represents time. The dimension of a physical quantity refers to the type of fundamental dimension it represents, like length, mass, or time.
A fundamental quantity is a physical quantity that is independent and not defined in terms of other physical quantities. These fundamental quantities form the basis for the measurement of other physical quantities. Examples of fundamental quantities include mass, length, time, and electric charge.
A physical quantity described by both magnitude and direction is called a vector. Vectors are commonly represented by an arrow pointing in a specific direction, with the length of the arrow representing the magnitude of the quantity.
Distance is a scalar quantity that represents the physical length between two points in space. It is typically measured in units such as meters or kilometers.
Volume is the physical quantity that has units of length cubed. It represents the amount of three-dimensional space occupied by an object.
The dimensional formula of a physical quantity represents how it is composed of fundamental dimensions like length, mass, and time. For example, the dimensional formula of velocity is [LT^-1] where L represents length and T represents time. The dimension of a physical quantity refers to the type of fundamental dimension it represents, like length, mass, or time.
A fundamental quantity is a physical quantity that is independent and not defined in terms of other physical quantities. These fundamental quantities form the basis for the measurement of other physical quantities. Examples of fundamental quantities include mass, length, time, and electric charge.
A physical quantity described by both magnitude and direction is called a vector. Vectors are commonly represented by an arrow pointing in a specific direction, with the length of the arrow representing the magnitude of the quantity.
Length is considered a fundamental quantity because it is a basic physical quantity that cannot be defined in terms of other fundamental quantities. It is used to define other physical quantities such as speed, area, and volume. Additionally, length has its own units of measurement (meter, inch, etc.) that are universally recognized and applied in various scientific disciplines.
The 'physical dimensions' of force are [ mass x length/time2 ].
quantity for measuring vernier caliper is what
[mass] [length2] / [time2] =[ mass-length/time2 ] x [length] =[force] x [length] = work or energy
A fundamental quantity is a physical quantity that cannot be defined in terms of other physical quantities, while a derived quantity is a physical quantity that is defined in terms of fundamental quantities through mathematical relationships. Examples of fundamental quantities include mass, length, and time, while examples of derived quantities include velocity, acceleration, and energy.
Length is a scalar quantity. By definition, a vector quantity has both magnitude (ie. length) and direction. Length does not have direction, so it is not a vector. Length is a scalar quantity. Length is a scalar quantity. yes
A standard use for a measurement of a physical quantity is called the unit of that physical quantity