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What else can I help you with?
What is any object used to determine motion?
An accelerometer is an object that measures acceleration, which can be used to determine motion. It detects changes in speed or direction of an object and provides data that can be used to track its movement.
Why must motion be with respect to the observer?
Imagine a person riding past in a car who looks at you says to you "I'm not moving. I am sitting still in my car. YOU are moving!"An airline passenger flying overhead then looks down at both of you, and reports "I'm up here sitting still, and BOTH of you guys are moving!".And an astronomer working at the observatory on the moon, taking a break and using his super-duper telescope to see what's shaking back on earth, watches the events on Earth and, and sees clearly that ALL THREE of you are moving.Now here's the important part: all perspectives are correct ! There is no such thing as absolute motion - all mostion is relative to the observer, or the person who is measuring the movement.
Relationship between force and motion?
An object will only change its motion if undergoing a force acting upon it. An object does not, necessarily, need a force to act upon it to move; it needs only a force to accelerate (or decelerate!) If dealing with an object at rest, this equation works best to describe how that object can begin to move: F = ma Where F is the force applied, m is the mass of the object, and a is the acceleration. Therefore, if you apply a force of 10 Newtons to a mass of 10 Kilograms constantly, the object will undergo uniform acceleration of 1 m/s^2 -- ie, it will increase its velocity by 1m/s (meter per second) every second. A force does not need to be constantly applied to an object for it to continue to move. If a force of 10 Newtons is applied to an object of mass 10 kilograms for just one second, the object will accelerate to AND THEN REMAIN AT the velocity 1 meter per second. Now, if you're dealing with objects already moving, the equation looks a little different: it's called the impulse equation, and it describes the relationship between forces and objects in the context of a CHANGE OF MOTION (or, specifically, momentum.) It reads as follows: FT = m(Vf - Vo) F and m are the same as above. Essentially, this equation describes the change in motion--starting at "Vo" and ending with "Vf" of an object mass "m" when the force "F" is applied for "T" seconds. That's really all there is to know--for LINEAR motion, which I assume you're referring. If you mean angular motion, that's another ballgame, and one I really don't want to get involved with ;)
WHAT IS thename for a picture that looks like it's moving?
The name for a picture that looks like it's moving is called an optical illusion or a motion illusion.
Why is heat a form energy?
That means that other forms of energy can be converted to heat, and - with some limitations - heat can be converted to other forms of energy. A certain amount of movement energy (for example) always converts to a certain amount of heat. So, it certainly looks as if there is "something" that the different things (for example, movement and heat) have in common. This "something" is now called "energy".
The motion of an object looks different to observers in different?
Reference frames.
What is any object used to determine motion?
An accelerometer is an object that measures acceleration, which can be used to determine motion. It detects changes in speed or direction of an object and provides data that can be used to track its movement.
Is friction will resist motion of an object on shiny surfaces?
Yes.Even if it looks shiny, there's always some friction.
Will friction resist motion of an object on shiny surfaces?
Yes.Even if it looks shiny, there's always some friction.
Why are zebras stripes black when grass is green?
It looks different by comparison.Like if you put a a big object near a small object the bigger object would bigger.
What is a description of the Steady State Theory?
proposes that the universe looks the same on large scales to observers.
What does the motion of an object look like after the forces acting on it end?
We don't know what the forces were or in what direction, and we don't know anything about the object. So we have no idea what its motion looks like when the forces end. But we do know that whatever speed it has and whatever direction it's moving at the instant the forces stop, it'll continue in the same direction at the same speed from then on.
How do you make a stopmotion?
A stop motion is where you have an object and you move it little by little, taking pictures every movement. When you put the pictures together, it looks like the object is moving by itself. Here's how to make your own stop motion movie. You Will Need: -An Object -A Camera -Something to balance your camera on (a tripod is best) Take your object and move it very slightly. Then take a picture. Then do it again. Keep repeating this process until your done with the stop motion. Some good editing tools do edit the stop motion are: -Windows Movie Maker -iMovie Have fun making your very own stop motion movie!
Compare apparent motion with actual motion?
Apparent motion is what it looks like it's doing from here on earth. Actual motion is what it's actually doing in space relative to the system's center, whether you're talking about the sun, if it's the motion of a planet; or the galactic center, if you're talking about a star.
Describe what a pinecone looks like?
It is a small prickly object with all different shapes and sizes.
What do you call those movies that are made up of many pictures all stitched together so it looks like they move?
telograph Actually, I believe that what you are describing is stop motion. stop motion covers many different subsections including clay-mation (like Rudolph the red nose reideer movie), cutout, (southpark), graphic, model, object, pixilation, and puppetoon. -Solo
How does a graph of acceleration looks like?
The answer depends on the motion.
