The smaller object will have a larger acceleration than the larger object.
This is because, from Newton's second law, the acceleration of a body is given by:
a = F/m
where
a is acceleration
F is resultant force
and m is mass
F is constant, so acceleration is inversely proportional to mass.
Hence, the smaller object will have a larger acceleration.
The smaller and lighter object will likely go faster, as it will accelerate more easily due to its lower mass. The force applied will result in a greater acceleration for the smaller object compared to the larger one.
No, the acceleration of an object depends on both the force applied and the object's mass. A heavier object will require a larger force to accelerate as rapidly as a lighter object with a smaller force. This is described by Newton's second law, which states that acceleration is directly proportional to the force applied and inversely proportional to the object's mass.
The object with a smaller mass will accelerate more when acted upon by a constant force because acceleration is inversely proportional to mass. Specifically, the acceleration is calculated by dividing the force by the mass of the object, so a smaller mass will result in a greater acceleration.
The object will accelerate in the same direction as the larger force.
The object will accelerate in the direction of the larger force. The net force acting on the object is the difference between the two forces, causing the object to move in the direction of the larger force.
The smaller and lighter object will likely go faster, as it will accelerate more easily due to its lower mass. The force applied will result in a greater acceleration for the smaller object compared to the larger one.
There is no specific force required to accelerate an object to a predetermined speed. A smaller force will produce a smaller acceleration, so it will take longer to reach the desired speed. A larger force will produce a larger acceleration, so the desired speed will be reached sooner. But either the large or the small force, or any other force, will produce an acceleration, and cause the object to reach the specified speed sooner or later.
No, the acceleration of an object depends on both the force applied and the object's mass. A heavier object will require a larger force to accelerate as rapidly as a lighter object with a smaller force. This is described by Newton's second law, which states that acceleration is directly proportional to the force applied and inversely proportional to the object's mass.
The object with a smaller mass will accelerate more when acted upon by a constant force because acceleration is inversely proportional to mass. Specifically, the acceleration is calculated by dividing the force by the mass of the object, so a smaller mass will result in a greater acceleration.
The object will accelerate in the same direction as the larger force.
Using the second law equation the object the larger mass has a smaller blank? Let me make a correction to your question!Using the same force, Newton's second law equation states the object with the larger mass has a smaller blank?Using the same force, Newton's second law equation states the object with the larger mass has a smaller acceleration?Force = mass * accelerationF = m * a, If force is constant, then the mass and acceleration are inversely related. Mass goes up, acceleration goes down. Heavy object is harder to accelerate.
The object will accelerate in the direction of the larger force. The net force acting on the object is the difference between the two forces, causing the object to move in the direction of the larger force.
Yes. If there is an unbalanced force on an object, the object will always accelerate in the direction of the force.
YES!!! Assuming the acceleration() is constant. Then F = Ma & f= ma If M > m then F(force) > f(force)
An object will accelerate in the direction of the net force acting upon it. If multiple forces are acting on the object, the net force is the vector sum of all the individual forces, and the object will accelerate in the direction of this net force.
Accelerate, motion is generated by applying force to mass.
Larger objects have greater mass, which means they have more inertia. Inertia is the tendency of an object to resist changes in its motion, so more force is needed to overcome this resistance and accelerate larger objects.