They are often used to calculate the energy used in a specific process involving work.
Inertia can be measured in units of mass, that is, in kilograms. They are related via Newton's Second Law: force = mass x acceleration.
The equation F=ma proves that mass and acceleration are related. Force = mass x acceleration Mass is directly related to acceleration, therefore if one goes up then the other must go down.
Fg is equal to mass times acceleration. While the mass of the object does not change, acceleration (gravity) increases the more the object falls to the ground.
The formula for force is( Force=mass multiplied by acceleration). To answer your question, we can see that as and distance are directly proportional. If you increase mass, to get to your target force, you will not need as much acceleration.
How the acceleration of a body related to its mass and the resultant force acting on it?
With extreme difficultly as they measure different things: mass is a measure of how much something weighs*, whereas length is a measure of distance. * Actually weight is the force on a mass due to acceleration and is measured in Newtons. However, weight and mass are often, incorrectly, used interchangeably and I cannot think of a better word to describe mass. To further muddy the waters, mass and distance ARE related by energy and acceleration: energy = (mass × acceleration) × distance which can be rearranged to distance = energy ÷ (mass × acceleration) So for an object given a mass, an acceleration (on earth acceleration due to gravity is a good one) and an amount of energy put in, the distance the object is moved (by that energy [in acting as a force]) can be calculated.
force =mass x acceleration therefore mass = force /acceleration and acceleration = force/mass
Inertia can be measured in units of mass, that is, in kilograms. They are related via Newton's Second Law: force = mass x acceleration.
The equation F=ma proves that mass and acceleration are related. Force = mass x acceleration Mass is directly related to acceleration, therefore if one goes up then the other must go down.
ma=F (mass)(acceleration)=Force
Fg is equal to mass times acceleration. While the mass of the object does not change, acceleration (gravity) increases the more the object falls to the ground.
The formula for force is( Force=mass multiplied by acceleration). To answer your question, we can see that as and distance are directly proportional. If you increase mass, to get to your target force, you will not need as much acceleration.
Force = Mass x Acceleration
How the acceleration of a body related to its mass and the resultant force acting on it?
there is no such things as a mass x distance formula. mass x acceleration = force mass x velocity = momentum mass x gravity x height = gravitational potential energy mass x velocity-squared x 1/2 = kinetic energy mass x distance = don't take physics in high school!
Force = mass times acceleration
These three variables are related by Newton's Second law: Force = mass x acceleration.