2 dimensional motion refers to motion occurring in a plane, where an object can move horizontally and vertically. This type of motion can be described using both x and y coordinates to track the position of the object. Examples include objects moving in a projectile motion or in circular motion.
The dimensional formula of electric potential is [M L^2 T^-3 I^-1], where M represents mass, L represents length, T represents time, and I represents electric current.
The dimensional formula of voltage is [M L^2 T^-3 I^-1], where M represents mass, L represents length, T represents time, and I represents electric current.
The dimensional formula for the spring constant (k) is [M][T]^-2, where [M] represents mass and [T] represents time.
The dimensional formula of force is ([M] \cdot [L] \cdot [T]^{-2}), where ([M]) represents mass, ([L]) represents length, and ([T]) represents time.
Two-dimensional motion that is not always projectile motion would be circular motion, where an object moves in a circular path. Two-dimensional motion that is not projectile motion and does not accelerate the object could be uniform circular motion, where the speed is constant but the direction changes.
Two vectors that lie along the same line-apex
Two Scalars that go in opposite directionsOne scalar and one vector!
Simple harmonic motion (SHM) is in one dimension whereas oscillatory motion is 2-dimensional motion that is SHM in one dimension but linear in another.Simple harmonic motion (SHM) is in one dimension whereas oscillatory motion is 2-dimensional motion that is SHM in one dimension but linear in another.Simple harmonic motion (SHM) is in one dimension whereas oscillatory motion is 2-dimensional motion that is SHM in one dimension but linear in another.Simple harmonic motion (SHM) is in one dimension whereas oscillatory motion is 2-dimensional motion that is SHM in one dimension but linear in another.
The dimensional formula of electric potential is [M L^2 T^-3 I^-1], where M represents mass, L represents length, T represents time, and I represents electric current.
It is a 2D net that represents a 3D figure
The dimensional formula of voltage is [M L^2 T^-3 I^-1], where M represents mass, L represents length, T represents time, and I represents electric current.
The dimensional formula for the spring constant (k) is [M][T]^-2, where [M] represents mass and [T] represents time.
The dimensional formula of force is ([M] \cdot [L] \cdot [T]^{-2}), where ([M]) represents mass, ([L]) represents length, and ([T]) represents time.
Two-dimensional motion that is not always projectile motion would be circular motion, where an object moves in a circular path. Two-dimensional motion that is not projectile motion and does not accelerate the object could be uniform circular motion, where the speed is constant but the direction changes.
Gravity
The dimensional formula of electric current is [I] = [A], where I represents current and A represents ampere.
The dimensional formula of joule's mechanical equivalent is [M][L]^2[T]^-2, where M represents mass, L represents length, and T represents time. This formula expresses the relationship between mechanical work and heat energy.