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Newton's second law of motion states that an object's acceleration is directly related to the net force applied and inversely related to the mass of the object.
mass and inertia are the same thing.
No, an object's acceleration is inversely proportional to an objects mass.
Acceleration is a net force that is inversely dependent on mass, therefore if an object mass increases ,acceleration decreases
When we apply force on an object, it accelerates in the direction of applied force. This acceleration is directly proportional to the magnitude of force and inversely related to the mass of the object.
Newton's second law of motion states that an object's acceleration is directly related to the net force applied and inversely related to the mass of the object.
mass and inertia are the same thing.
Acceleration is a net force that is inversely dependent on mass, therefore if an object's mass decreases, acceleration increases.
No, an object's acceleration is inversely proportional to an objects mass.
Acceleration is a net force that is inversely dependent on mass, therefore if an object mass increases ,acceleration decreases
When we apply force on an object, it accelerates in the direction of applied force. This acceleration is directly proportional to the magnitude of force and inversely related to the mass of the object.
Density gets decreased as D = M / V Density and Volume are inversely related.
Acceleration is a net force that is inversely dependent on mass, therefore if an object mass increases ,acceleration decreases
The rate of motion, or velocity of an object, is inversely proportional to its mass (p = m*v). Therefore, the larger the mass of the object, the slower it will move.
According to newtons second law of motion when the net force on an object is greater than 0, F=m*a where a is the acceleration, m is the mass, and F is the force.
anything that is real takes up space and has mass. that is how and object is related to mass
By Newton's first law of motion, it can be concluded that inertia of an object is inversely proportional to the mass of the object. In other words, larger the mass smaller the inertia and vice-versa.