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What Two objects with different masses experience the same force Which object will experience the greater acceleration?
Because of Newtons Law F = M X a Force = Mass Times Acceleration Rewritten: a = F/M The gravitational Force between the two objects are same. This Law says that the Acceleration will be inversely proportional to its Mass. So the object with the smaller Mass will have greater Acceleration.
It takes more force, or the same force over a longer period of time to move two objects of different mass equally.<br>Think of trying to push a bicycle and a car using the same amount of energy, the bike will move relatively easily compared to the car because it has less mass.<br>It boils down to inertia, an object at rest tends to want to stay at rest, and an object in motion wants to continue that motion.<br>The mass of the object determines how much energy will be needed to overcome it's tendency to stay motionless, as well as its tendency to keep moving. These factors are also affected by other things like friction or resistence
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Why do object that experience the same amount of force accelerate at different rates?
Objects with different masses experience different accelerations when subjected to the same force because of Newton's second law of motion: (F = ma). Since mass directly affects the acceleration of an object for a given force, objects with greater mass will have smaller accelerations compared to objects with lesser mass.
Different forces are applied to two different objects that have the same s what will happen?
The objects will experience different accelerations based on the magnitude and direction of the forces applied. According to Newton's second law (F = ma), the acceleration of an object is directly proportional to the force applied to it. Therefore, the object that experiences the greater force will have a greater acceleration compared to the object with the lesser force.
What causes objects to fall with different accelerations and speeds?
Objects fall with different accelerations and speeds due to differences in their mass and drag forces acting upon them. The acceleration of an object due to gravity is constant (9.8 m/s^2), but objects with greater mass experience greater gravitational force and thus fall faster. Additionally, objects with larger surface areas experience more drag, which can further affect their speed of descent.
What happens when 2 objects collide and have different masses?
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.
Do objects dropped from greater distance hit with a greater force?
Yes. In the formula P=mv, momentum, which governs the force of the impact, is equal to the mass of the object multiplied by the velocity. As the velocity increases, so does the momentum, therefore the greater the height dropped from, the greater the force of impact.
Why do object that experience the same amount of force accelerate at different rates?
Objects with different masses experience different accelerations when subjected to the same force because of Newton's second law of motion: (F = ma). Since mass directly affects the acceleration of an object for a given force, objects with greater mass will have smaller accelerations compared to objects with lesser mass.
Different forces are applied to two different objects that have the same s what will happen?
The objects will experience different accelerations based on the magnitude and direction of the forces applied. According to Newton's second law (F = ma), the acceleration of an object is directly proportional to the force applied to it. Therefore, the object that experiences the greater force will have a greater acceleration compared to the object with the lesser force.
What causes objects to fall with different accelerations and speeds?
Objects fall with different accelerations and speeds due to differences in their mass and drag forces acting upon them. The acceleration of an object due to gravity is constant (9.8 m/s^2), but objects with greater mass experience greater gravitational force and thus fall faster. Additionally, objects with larger surface areas experience more drag, which can further affect their speed of descent.
What happens when 2 objects collide and have different masses?
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.
Do objects dropped from greater distance hit with a greater force?
Yes. In the formula P=mv, momentum, which governs the force of the impact, is equal to the mass of the object multiplied by the velocity. As the velocity increases, so does the momentum, therefore the greater the height dropped from, the greater the force of impact.
Why do different weighted objects fall at the same rate?
Different weighted objects fall at the same rate due to the constant acceleration of gravity acting on all objects regardless of their mass. This acceleration causes all objects to experience the same rate of falling, known as the acceleration due to gravity (9.81 m/s^2 on Earth). Thus, in the absence of other forces like air resistance, objects of different weights will fall at the same rate in a vacuum.
If a brick has a greater mass than a sponge why is the acceleration due to gravity the same for both objects?
The acceleration due to gravity is the same for both objects because it depends only on the mass of the Earth and the distance from its center. While the brick has a greater mass, the force of gravity acting on it is also greater to account for this, resulting in the same acceleration for both objects.
In freefall heavier objects fall with a greater acceleration than lighter objects A True b false?
Faulse
In free fall the object with less air resistance with a greater acceleration true or false?
True. In free fall, all objects experience the same acceleration due to gravity regardless of their mass or air resistance. The acceleration due to gravity is approximately 9.8 m/s^2.
Do objects have equal acceleration?
Not necessarily. Objects can have different masses or experiences different forces, resulting in different accelerations.
An objects tendency to resist acceleration is measured by?
An object's tendency to resist acceleration is measured by its inertia, which is the property of matter that causes an object to resist changes in its state of motion. The greater an object's mass, the greater its inertia and resistance to acceleration.
In free fall all objects fall with the same acceleration?
Yes, in free fall all objects experience the same acceleration due to gravity, regardless of their mass. This acceleration is approximately 9.8 m/s^2 on Earth.
