Terminal velocity describes the point at which an object in free fall will no longer accelerate due to air resistance.
Terminal velocity is the term that describes the point at which an object will not accelerate any more due to the balance between gravity and air resistance.
A force is a push or pull that can cause an object to accelerate, change direction, or deform. Forces can be described by their magnitude, direction, and point of application on an object. Common forces include gravity, friction, tension, and normal force.
When the object reaches a state of dynamic equilibrium, where the sum of all forces acting on it is balanced and there is no net acceleration, the object will not accelerate any more. This occurs when the object's acceleration becomes zero.
The term for the point at which an object will not accelerate any more is called terminal velocity. At terminal velocity, the forces of air resistance and gravity are balanced, resulting in a constant velocity.
The word that describes an object's location is "position." It refers to the specific point or place where an object is located in relation to its surroundings.
Terminal velocity is the term that describes the point at which an object will not accelerate any more due to the balance between gravity and air resistance.
A force is a push or pull that can cause an object to accelerate, change direction, or deform. Forces can be described by their magnitude, direction, and point of application on an object. Common forces include gravity, friction, tension, and normal force.
When the object reaches a state of dynamic equilibrium, where the sum of all forces acting on it is balanced and there is no net acceleration, the object will not accelerate any more. This occurs when the object's acceleration becomes zero.
The term for the point at which an object will not accelerate any more is called terminal velocity. At terminal velocity, the forces of air resistance and gravity are balanced, resulting in a constant velocity.
The word that describes an object's location is "position." It refers to the specific point or place where an object is located in relation to its surroundings.
The location of an object is called its position. It describes where the object is situated in space relative to a reference point.
Displacement is the quantity that describes an object's change in position from its reference point. It involves both the distance and direction traveled by the object.
The position of an object is described by its location in space relative to a reference point or coordinate system. This typically includes its distance and direction from the reference point in one, two, or three dimensions.
Reference point.
Balanced forces describes when all forces on an object are equal. Unbalanced forces describes when the forces on an object are unequal, resulting in movement. Forces are balanced when the vector sum of all the forces acting on the object is zero, at which point the object will be at rest or be in motion with constant velocity. Forces are unbalanced when the vector sum of all the forces acting on the object is greater or less than zero, at which point the object will accelerate by either starting motion from rest, or changing its motion if it is already in motion, for example, by changing direction or speed.
the location of an object is it's position
A displacement vector describes the length and direction of movement of an object from its starting point. It represents the straight-line distance and direction between the initial and final positions of the object.