Inertia will not be affected when any type of force is applied.
INERTIA
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The one with the greatest mass. In general, inertia is related to mass. Inertia = momentum = mass X speed (technically, velocity). The one with the greater speed (if equal masses).
it is a type of force
The type of force that exists for every other force is the reactive force whereby for every action, there is an equal but opposite reaction
Inertia will not be affected when "net" or "net force" is zero.
Inertia will not be affected when "net" or "net force" is zero.
INERTIA
Every type of vehicle performance is inertia VS applied force. So how fast will it accelerate: Inertia vs the power supplied by the engine How short a distance can it stop in: Inertia being reduced by braking force How hard can it turn a corner. Inertia trying to go in a straight line vs the force provided by the tires to turn the car. The ride is very hard: the springs provide a lot of force in comparison to the cars inertia
The force of gravity on an object is its weight. Masses come in two types, which are thought to be equal. Inertial mass is one type, and gravitational mass is the other type, and, repeating, they are thought to be the same.
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The s type inertia switch is located under the driver side door jam its usually red in color.
As inertia can be defined mathematically as I=mr^2it implies that inertia is directly proportional to mass that is if mass is increased the inertia is also increased and vice versa. Or in general wordings inertia is a property of an object due to which it oppose any change in its state of rest or motion and this property depends upon mass if mass is large then the inertia will also be large similarly if mass is small inertia will also small.Everything in Physics can be explained by the formula F = Mass x Acceleration.Inertia is the Force required to change the motion or direction of an object. Very often the term Momentum is used interchangably with Inertia, but that is not technically accurate.So, since F= MA,To accelerate a Mass from Velocity = 0, we have to overcome its "Inertia", which is the Force required by the above equation. As Mass (M) increases, so does the required Force (F), directly, and proportionally.-----------------------------------------------------------------------------Umm, both of these answers above have some issues.First of all, Inertia cannot be defined mathematically - the person who stated I=mr^2 is referring to the Moment of Inertia, which is the rotational equivalent of Mass in linear situations.When Newton described Inertia, he used the word to describe the behavior of object to resisting changes in motion. It is a behavior - there is no measurement of a behavior, you either possess the behavior or you do not. In order to discuss the amount of resistance, the terms Mass and Moment of Inertia are used, depending on the type of interaction.The second answer has some bad language. Inertia is NOT a force. Forces are pushes and pulls... not a behavior. Also, one does not need to 'overcome' Inertia in order to accelerate. If there is a net force applied to you - you WILL accelerate. The amount of mass you possess will dictate how much you accelerate. (a = F/m)To answer the original question, the answer is simply this:Mass (and Moment of Inertia) are simply the means of measuring the behavior of Inertia. One does not 'affect' the other. The question you ask is analogous to asking "How does your age affect time?"
We use y_y axes
It depends on what type of planet it is.... which one is it?
The one with the greatest mass. In general, inertia is related to mass. Inertia = momentum = mass X speed (technically, velocity). The one with the greater speed (if equal masses).
Type your answer here... A. inertia