-- The distance/time graph for an object in uniform motion is a straight line,
which may be sloped.
-- The distance/time graph for an object in non-uniform motion may be a line
that isn't straight. But even if the graph is a straight line, that's not enough
to guarantee that the object's motion is uniform ... the distance/time graph
reveals the object's speed, but not the direction of its motion.
For uniform motion, the position-time graph will be a straight line with a constant slope, indicating a constant velocity.
The distance-time graph for uniform motion of an object is a straight line with a constant slope. This indicates that the object is covering equal distances in equal time intervals, showing a constant speed.
The distance-time graph for non-uniform motion of an object will not be a straight line, as the object's speed is changing. It may have curved sections or varying slopes to represent the changing speed of the object at different points in time. The graph may be irregular or have multiple segments to illustrate the object's varying velocity.
The first postulate of special relativity states that the laws of physics are the same for all observers in uniform motion. This is significant because it leads to the concept of time dilation and length contraction, which show that time and space are not absolute but can change depending on the observer's motion. This challenges our traditional understanding of time and space as fixed and separate entities, and highlights the interconnected nature of the two in the fabric of the universe.
Friction is the force that resists motion between two surfaces in contact with each other. It acts in the opposite direction to the motion and can be affected by the nature of the surfaces and the force pressing them together.
For uniform motion, the position-time graph will be a straight line with a constant slope, indicating a constant velocity.
the distance time graph will show a linear or a straight line
A distance-time graph for an object moving at a constant velocity will be a straight line - the gradient of the line corresponds to the velocity. Non-uniform motion will cause the gradient of the line to change.
The distance-time graph for uniform motion of an object is a straight line with a constant slope. This indicates that the object is covering equal distances in equal time intervals, showing a constant speed.
The distance-time graph for non-uniform motion of an object will not be a straight line, as the object's speed is changing. It may have curved sections or varying slopes to represent the changing speed of the object at different points in time. The graph may be irregular or have multiple segments to illustrate the object's varying velocity.
Newton was studying nature and force and motion desscribe nature.
Plato proposed that all heavenly motion is uniform and circular because he believed that perfect, immutable forms governed the universe. The circle was considered the most perfect shape because it has no beginning or end, representing eternity. By applying circular motion to the heavens, Plato aimed to reflect the divine and unchanging nature of the cosmos.
Aristotle classified motion into natural motion and violent motion. Natural motion was intrinsic to an object's nature, such as an apple falling from a tree. Violent motion was caused by an external force acting on an object, like pushing a ball.
Nature Tech - 2003 The Magic of Motion was released on: USA: 26 September 2007
every school has its Uniform. The fact is very uniform in nature.
A body moving at a uniform speed may have a uniform velocity, or its velocity could be changing. How could that be? Let's look. The difference between speed and velocity is that velocity is speed with a direction vector associated with it. If a car is going from, say, Cheyenne, Wyoming to the Nebraska state line at a steady speed of 70 miles per hour, its velocity is 70 miles per hour east. Simple and easy. Uniform speed equals uniform velocity. (Yes, I-80 isn't perfectly straight there. Let's not split hairs.) But a car moving around a circular track at a uniform speed is constantly changing direction. Its speed is constant, but its velocity is changing every moment because the directionit is going is changing. Speed is uniform, but velocity isn't. As asked, uniform speed is a uniform distance per unit of time. And this will yield a uniform distance per unit of time in its velocity, but the direction vector may be uniform or it may be changing each moment, as illustrated.
1)Nonuniform probability distribution of speech amplitude. 2)Nonzero autocorrelation between successive speech samples. 3)Nonflat nature of the speech spectra. 4)The most basic:speech is band limited.