An object's net velocity during some time is (its distance right now from where it started, regardless of the path it followed to get here) divided by (time that has passed since it started) AND (the direction from where it started to where it is right now).
If its velocity is constant, then the net force on it is zero, regardless of its mass or speed.
You go through the sections of the book that have been covered most recentlyin class, and you look for the part where the following formulas both appearclose together, within a page or two:F = M aVf = Vi + aTThen you read over that section again. We can assure you that you didn't get itthe first time through.Note:Even if you don't want to go through that much of a hassle, those two formulaslisted above are enough to answer the question.
If the velocity of the object is constant, then the net force on it is zero.(Incidentally, if the velocity of the car is constant and not zero, then it must be ona straight highway. If the highway curved and the car's velocity didn't change, thenit would run off of the road.)
If an object has no net force acting on it, it will either remain at rest or continue moving at a constant velocity in a straight line, following Newton's first law of motion.
If the net force acting on an object is 0, then the object will move with a constant velocity. This means that the object will neither speed up nor slow down, but continue to move at a consistent speed in a straight line. This is described by Newton's first law of motion.
The formula to calculate the net acceleration of an object is: Net Acceleration (Final Velocity - Initial Velocity) / Time.
To calculate the acceleration of an object moving in a straight line, you need to know the initial velocity, final velocity, and the time it takes for the change in velocity to occur. Acceleration is calculated as the change in velocity over time.
To determine the net force acting on an object, you can use the formula: net force mass x acceleration. Acceleration is calculated by dividing the change in velocity by the time taken for that change. By considering the mass and velocity of the object, you can calculate the net force acting on it.
To calculate the acceleration, you need to divide the net force by the mass.
You must know its mass and the net force. If it is moving at constant velocity, the net force is zero and the acceleration is zero.
Divide the net displacement by the time of travel.
The net velocity formula is the total velocity of an object, taking into account both its speed and direction. It is calculated by adding up all the individual velocities of the object. This formula helps determine the overall motion of an object by considering how its speed and direction change over time.
Not necessarily. If the net force acting on a body is zero, the body's velocity will remain constant (assuming no other forces act on it to change its velocity), but it doesn't mean the velocity will be zero. If the initial velocity is zero, then the velocity will remain zero if the net force is zero.
When an object has a net force acting on it, its velocity changes. The object will accelerate in the direction of the net force if the force is in the same direction as the object's velocity, decelerate if it's in the opposite direction, or change direction if the force is perpendicular to its velocity.
How do you calculate net working capital?
In physics, net force refers to the overall force acting on an object. A feather with no net force on it maintains constant velocity.
The net force on the leash is zero when the dog is stationary or moving at a constant velocity. The size and direction of the force on the leash would depend on the tension in the leash and the angle at which it is being pulled.