they fall at the same rate regardless of their mass
Maryann Saba
Objects have different mass because they not weighted the same..
Yes, two objects with the same volume can have different masses if they are made of materials with different densities. Density is the mass of an object per unit volume, so objects of the same volume but different densities will have different masses.
Similar forces will result in different accelerations on objects of different masses. According to Newton's second law, F = ma, where F is the force applied, m is the mass of the object, and a is the acceleration. Objects with larger masses will experience smaller accelerations compared to objects with smaller masses when subjected to the same force.
No, objects with different masses will not cover their projectile motion at the same time, even if they are given the same initial velocity and launched from the same height. This is because the motion of an object is influenced by both its mass and the force acting on it, meaning objects with different masses will follow different trajectories.
Yes, the more massive object will exert a greater force of gravity on another object compared to a less massive one, as gravitational force is directly proportional to the product of the masses of the two objects involved.
Objects have different mass because they not weighted the same..
Yes, two objects with the same volume can have different masses if they are made of materials with different densities. Density is the mass of an object per unit volume, so objects of the same volume but different densities will have different masses.
the two objects in question have different densities. The denser object has more mass.
Similar forces will result in different accelerations on objects of different masses. According to Newton's second law, F = ma, where F is the force applied, m is the mass of the object, and a is the acceleration. Objects with larger masses will experience smaller accelerations compared to objects with smaller masses when subjected to the same force.
No, objects with different masses will not cover their projectile motion at the same time, even if they are given the same initial velocity and launched from the same height. This is because the motion of an object is influenced by both its mass and the force acting on it, meaning objects with different masses will follow different trajectories.
Yes, the more massive object will exert a greater force of gravity on another object compared to a less massive one, as gravitational force is directly proportional to the product of the masses of the two objects involved.
When two objects collide and have different masses, the object with greater mass will generally experience less acceleration and maintain more of its initial velocity. The object with lesser mass will typically experience a greater change in velocity and direction due to the impact. The conservation of momentum and kinetic energy are key principles that govern the outcome of collisions between objects with different masses.
Of course objects have mass because Mass is any object that has weight.
The masses of the objects will affect the final temperature based on their specific heat capacities. If two objects with different masses and the same heat input have different specific heat capacities, the object with the lower specific heat capacity will tend to have a higher final temperature compared to the object with the higher specific heat capacity. This is because the object with the lower specific heat capacity requires less heat to raise its temperature.
Objects of different masses have different effects because mass is a measure of the amount of matter in an object. Objects with more mass have more inertia, making them harder to accelerate or decelerate. Additionally, objects with more mass experience stronger gravitational forces than objects with less mass.
Objects of different masses accelerate at the same rate on the moon because the acceleration due to gravity on the moon is constant for all objects, regardless of their mass. This is because the force of gravity is proportional to the mass of the object, so the acceleration is the same for all objects.
Even though the action-reaction forces are equal in magnitude, they are acting on different objects which can have different masses. As a result, the acceleration of each object may be different. This difference in acceleration leads to the objects moving in different directions.