An object's motion is affected by the initial speed and acceleration and the forces that interact with it, the most important being:
Gravity - that is affected by the gravitational constant g - which is affected by altitude;
Air friction - that depends on the speed of the object and it's volume and air density;
Surface friction - depends on the size of the surface of contact, the force that the object exerts on the surface, the surface and the object's coefficient of friction;
All the above forces are proportional to the mass of the object.
An object's motion is affected by the initial speed and acceleration and the forces that interact with it, the most important being:
Gravity - that is affected by the gravitational constant g - which is affected by altitude;
Air friction - that depends on the speed of the object and it's volume and air density;
Surface friction - depends on the size of the surface of contact, the force that the object exerts on the surface, the surface and the object's coefficient of friction;
All the above forces are proportional to the mass of the object.
Acceleration aka Force, and Mass
a=F/m
Friction is commonly mentioned, which creates negative acceleration vectors on the object.
Keep in mind that gravity is acceleration, therefore mass and friction will play a part if the object is moving on a surface.
The surface finish and shape of an object will effect the friction forces, by adding a negative acceleration vector. If the object is moving on a surface, the coefficient of static friction (if object is rolling) or coefficient of dynamic friction (if object is sliding) are needed for both the object and the surface.
If the object is passing through a gas or fluid, is is quite complex to calculate the acceleration vectors.
Acceleration aka Force, and Mass
a=F/m
Friction is commonly mentioned, which creates negative acceleration vectors on the object.
Keep in mind that gravity is acceleration, therefore mass and friction will play a part if the object is moving on a surface.
The surface finish and shape of an object will effect the friction forces, by adding a negative acceleration vector. If the object is moving on a surface, the coefficient of static friction (if object is rolling) or coefficient of dynamic friction (if object is sliding) are needed for both the object and the surface.
If the object is passing through a gas or fluid, is is quite complex to calculate the acceleration vectors.
When an object moves, it acquires energy. This force is called energy of motion, or kinetic energy. The faster your vehicle moves, the more energy of motion it has. Energy of motion is also affected by the weight of the moving object.
Any force acting on the object undergoing motion can affect its motion.
The available volume and temperature.
Force does.
none
Work is done when an object moves in the direction in which a force is applied to it. So the factors are the magnitude and direction of the applied force and the factors which affect the object's motion. The latter will include the mass of the object and friction (including drag).
The two factors that describe motion are thing. :)
Acceleration ... whether or not it was in motion initially.
Unbalanced.
force, mass
Mass (gravity) & friction!
none
Speed, friction, momentum, and conservation of motion
Work is done when an object moves in the direction in which a force is applied to it. So the factors are the magnitude and direction of the applied force and the factors which affect the object's motion. The latter will include the mass of the object and friction (including drag).
The two factors that describe motion are thing. :)
The centripetal force on a particle in uniform circular motion increases with an increase in the mass of the particle or the speed at which it is moving. It also increases if the radius of the circle decreases, as the force required to keep the particle in the circular path becomes greater when the circle is smaller.
factors affect reliability
by doing always motion
the object of motion is akantutan
they affect one another's motion only when they collide.
Factors that affect mobility include leg strength, balance, endurance, fatigue , pain, generalized weakness, altered limb sensations, and limb coordination.