Acceleration depends on the mass of the object and the net force acting on it.
The acceleration of a rocket depends on the thrust produced by the engine and the mass of the rocket. A higher thrust will result in greater acceleration, while a higher mass will decrease acceleration. Air resistance can also affect acceleration, with lower air resistance allowing for greater acceleration.
Acceleration can be calculated using the formula: acceleration = force / mass. If the force is 50 newtons and the mass is known, plug those values into the formula to get the acceleration.
The acceleration of an object depends on the force acting on it. If a force is applied, the acceleration can be calculated using Newton's second law: acceleration = force / mass. More information about the force acting on the object is needed to determine its acceleration.
The direction of instantaneous acceleration is in the direction of the change in velocity at that moment. If the velocity is increasing, the acceleration is in the same direction as the velocity. If the velocity is decreasing, the acceleration is in the opposite direction of the velocity.
Acceleration depends on the mass of the object and the net force acting on it.
The answer depends on what is plotted on the graph and what is happening with the acceleration then.
The acceleration of a rocket depends on the thrust produced by the engine and the mass of the rocket. A higher thrust will result in greater acceleration, while a higher mass will decrease acceleration. Air resistance can also affect acceleration, with lower air resistance allowing for greater acceleration.
All depends on the engine you have, the hemi has great acceleration.
The answer depends on when "then" is.
Acceleration is change in velocity. So it depends on both velocity and time.
Yes, f=ma. Force = mass*acceleration.
It depends on the aircraft.
The answer depends on the motion.
Newton first realized that acceleration depends on the amount of force applied to that object
1.the shape of the universe 2.the rate of acceleration or de-acceleration
The answer depends on the variables in the graph! In a graph of age against mass there is nothing that represents acceleration.