As the mass of a human body increases, so does the g-force exhibited on the human body.
The force on the 1kg body is 0.5 Newton. The acceleration of the 2kg mass with a force of 0.5 Newton will be 0.25m/s^2
Force does not affect inertia in general. Inertia can basically be identified with the mass.
According to Newton's second law, force equals mass times acceleration.
The Law of Applied Force states that a body's change in mass is proportional to the amount of force applied to it.
Yes Friction=Reaction force x COF Reaction force = mass x gravity So Friction=mass x gravity x COF ^ Change the mass, change the friction
The force that a human body can exert on a surfboard is its weight. Weight is the gravitational force acting on a body's mass, and is determined by multiplying the acceleration due to gravity (g), 9.81m/s2, times the person's mass in kilograms. The unit for weight is the Newton (N). For example, if a person has a mass of 75.5kg, his weight in Newtons will be 75.5kg x 9.81m/s2 = 741N.
The larger the mass, the stronger the gravitational force.
The larger the mass, the stronger the gravitational force.
Yes. The force =mass x acceleration, f=ma. The larger the mass the larger the force.
the affect gravitonal and normal force
Mass and Force have no relationship except the gravitational force that is dependent on the mass of the body. Mass affects only the inertial force. Inertial force is the force required to change a state of rest or motion of a body. Greater the mass greater the inertial force required.
The greater the mass, the greater the gravitational force.
force acting on unit mass of body is the acceleration of that body.
Gravitational force does not change your mass. Mass is the same when you are floating in the weightlessness of space, but your mass when put into a gravitational field creates your weight. On Earth, Earth's gravity (gravitational force) pulls on your mass, creating your weight. The mass of an object determines its gravitational pull. A object with a lot of mass like the Earth has a lot of gravitational force/pull -- the force we call gravity. So, your body has a gravitational force, it's just so small, because your mass is small, it isn't noticeable.
How the acceleration of a body related to its mass and the resultant force acting on it?
The greater the mass, the stronger the gravity, but the distance does not affect the amount of gravity.
mass and distance