It is a vector. A scalar has only magnitude. A vector has magnitude and direction.
Acceleration is a vector because it has magnitude and direction. That's why an object can be said to be accelerating if it has a circular rotation and a constant speed; even though it's speed isn't changing, it's direction constantly is. Displacement (s), velocity (v), and acceleration (a), are vectors because they have both magntude and direction.
A vector - direction of the acceleration is relevant.
A vector - direction of the acceleration is relevant.
A vector - direction of the acceleration is relevant.
A vector - direction of the acceleration is relevant.
Since acceleration is a vector quantity, it has a direction associated with it. The direction of the acceleration vector depends on two things: whether the object is speeding up or slowing down.
Yes.
Answer2:
Acceleration is a Quaternion, a scalar and a vector. v2/r is a scalar acceleration and dV/dt is a vector acceleration.
Velocity and acceleration are both vector quantities.
A vector - direction of the acceleration is relevant.
Mass is a scalar, acceleration is a vector.
It's a vector one.
Acceleration is a VECTOR quantity
vector
Angular acceleration is a vector.
Vector Quantity
A vector. Acceleration is defined as change in velocity in a given time, in symbolsa = ( v - u ) / t(the bolded symbols represent vectors)t is a scalar so its inverse is also a scalar.( v - u ) is a vector soa = vector * scalar = a vector.Answer2:Acceleration like many quantities is a Quaternion, consisting of a scalar part and a vector part. a= mv2/r is a scalar acceleration and A=dV/dt is a vector acceleration as is cV/r = A.
Gravity creates a scalar and vector acceleration. The gravitational potential energy isEs= GmM/r= - mu/r.The derivative of the energy is the forceXE= F= (d/dr + Del) (-mu/r) = -m(d(u/r)/dr + Del u/r) = mu(/r^2 + R/r^3)The scalar acceleration is as=u/r^2 the vector acceleration is Av= uR/r^3.Thus the acceleration due to the gravitational potential energy produces a scalar and vector acceleration. This is the result of the quaternion nature of Nature. The Four dimensional universe consists of a scalar and a vector part, including the scalar and vector derivative X=d/dr + Del.
To make it easy, vector quantities have a direction aswell as a magnitude.While scalar quantities just have a magnitudeAn example of a scalar quantity is "Speed" and the vector quantity would be "Velocity"
Angular acceleration is a vector.
Vector Quantity
A vector. Acceleration is defined as change in velocity in a given time, in symbolsa = ( v - u ) / t(the bolded symbols represent vectors)t is a scalar so its inverse is also a scalar.( v - u ) is a vector soa = vector * scalar = a vector.Answer2:Acceleration like many quantities is a Quaternion, consisting of a scalar part and a vector part. a= mv2/r is a scalar acceleration and A=dV/dt is a vector acceleration as is cV/r = A.
No, acceleration is a vector quantity.
No. Force and acceleration are vector quantities.
Since acceleration has both a magnitude and a direction, it is therefore a vector quantity, not a scalar quantity.
Since acceleration has both a magnitude and a direction, it is therefore a vector quantity, not a scalar quantity.
For differentiation, you have to divide a vector by a scalar. Therefore, you should get a vector.
Gravity creates a scalar and vector acceleration. The gravitational potential energy isEs= GmM/r= - mu/r.The derivative of the energy is the forceXE= F= (d/dr + Del) (-mu/r) = -m(d(u/r)/dr + Del u/r) = mu(/r^2 + R/r^3)The scalar acceleration is as=u/r^2 the vector acceleration is Av= uR/r^3.Thus the acceleration due to the gravitational potential energy produces a scalar and vector acceleration. This is the result of the quaternion nature of Nature. The Four dimensional universe consists of a scalar and a vector part, including the scalar and vector derivative X=d/dr + Del.
To make it easy, vector quantities have a direction aswell as a magnitude.While scalar quantities just have a magnitudeAn example of a scalar quantity is "Speed" and the vector quantity would be "Velocity"
scalar lol
A vector is a quantity with a direction that matters, like force, velocity, acceleration, etc. A scalar is a quantity with no direction, like temperature, cost, mass, etc.