Want this question answered?
Newton's first law of motion consists of 2 parts: The first part tells us that a body does not change its state of rest unless an unbalanced force is applied on it.FOR EXAMPLE: A book lying on the desk remains at rest until someone lifts it. The second part tells us that a body does not change its state of motion unless we apply a certain force on it to stop motion. FOR EXAMPLE A ball is thrown on the ground comes to rest after covering some distance.it is because of following forces: 1. FORCE OF GRAVITY 2. FORCE OF FRICTION 3. AIR FRICTION If these forces are eliminated then according to the NEWTON's FIRST LAW OF MOTION a body will remain in motion.
Normal force
Use Newton's 2nd law of motion to find the answer(s). Force = mass x acceleration Since you know the force and the mass you should be able to figure out the acceleration.
You need to know if the: 1. Triple-beam balance is on a flat surface. 2. Riders are all at zero. 3. Triple-beam balance is balanced with the riders at zero.
1
A cube is a good example of a 3D figure when drawn on paper and showing perspective.
Those are the 3 words of the Unrelenting Force shout. In the language of the dragons, they mean "Force", "Balance" and "Push" respectively.
No, 2.3 is an example of 2 significant figures. The significant figures are 2 and 3
width, or perhaps depth ( of a drawer, for example )
A space figure is a figure or shape in 3-dimensional space. It could be solid but it need not be: for example, it could be a wriggly line drawn on the surface of a sphere.
One example is a cube, another is a sphere, there are very many more named and unnamed. Any shape (solid, body) that extends out of a flat plane is a 3-D figure.
Forces are created in many different ways. . . . . for example strong nuclear force electromagnetic force weak force and gravity
Luke Skywalker would kill Anakin and bring balance to the force.
You would ahve to figure out the number.....For example: if the number was 3....3-2=1...that is the difference between 2 and 3
force = mass * acceleration if force is doubled, mass needs to be doubled to keep the same acceleration example: force = 6 mass = 2 acceleration = 3 6 = 2 * 3 12 = m * 3 12/3 = m 4 = mass
(1) Symmetrical balance (2) Asymmetrical balance (3) Radial balance
An example would be Newton's First, Second, and Third Law of Motion: 1: Every object at rest (in motion) will remain at rest (in motion) unless acted on by an outside force. 2: F=ma 3: Every force has an equal and opposite force back on that force.