Velocity is proportional to elapsed time when motion
is in a straight line and acceleration is constant.
When acceleration is constant, the relationship between velocity, time, and displacement can be described by the equations of motion. The velocity of an object changes linearly with time when acceleration is constant. The displacement of the object is directly proportional to the square of the time elapsed.
The formula for calculating acceleration is: acceleration (final velocity - initial velocity) / time elapsed.
Momentum is mass multiplied by velocity - so it is proportional to the velocity. If the velocity triples then so does the momentum
Then the object accelerates; its velocity changes.Then the object accelerates; its velocity changes.Then the object accelerates; its velocity changes.Then the object accelerates; its velocity changes.
Yes, an object's momentum is directly proportional to its velocity. Momentum is defined as the product of an object's mass and velocity, so as velocity increases, momentum increases proportionally.
When acceleration is constant, the relationship between velocity, time, and displacement can be described by the equations of motion. The velocity of an object changes linearly with time when acceleration is constant. The displacement of the object is directly proportional to the square of the time elapsed.
The formula for calculating acceleration is: acceleration (final velocity - initial velocity) / time elapsed.
Momentum is mass multiplied by velocity - so it is proportional to the velocity. If the velocity triples then so does the momentum
yes, P=mv
Then the object accelerates; its velocity changes.Then the object accelerates; its velocity changes.Then the object accelerates; its velocity changes.Then the object accelerates; its velocity changes.
Yes.
Yes, an object's momentum is directly proportional to its velocity. Momentum is defined as the product of an object's mass and velocity, so as velocity increases, momentum increases proportionally.
The kinetic energy of an object is proportional to the square of its velocity. This means that as an object's velocity increases, its kinetic energy increases exponentially.
Not necessarily. An object's velocity can depend on various factors, including inertia, mass, and the net force acting on it. While an increase in force can lead to an increase in velocity, other factors can also influence an object's motion.
To find an object's acceleration, you need its initial velocity, final velocity, and the time it takes to change from the initial velocity to the final velocity. The formula for acceleration is (final velocity - initial velocity) / time elapsed.
When a force acts on an object and moves it, the object will experience a change in velocity. This change in velocity is described by Newton's second law of motion, which states that the acceleration of an object is directly proportional to the force applied and inversely proportional to the object's mass.
Kinetic energy is directly proportional to the mass of an object and the square of its velocity. This means that if either the mass or the velocity of an object increases, its kinetic energy will increase proportionally.