velocity and accelaration
A rectilinear motion is a motion along a straight line. It can be one, two, or three dimensional. Non-accelerated motion is when a body is in motion, but there isn't a force to speed it up or slow it down. Therefore, non-accelerated rectilinear motion would be a motion along a straight line that has no force trying to speed it up or slow it down.
The objectives of non-accelerated rectilinear motion are typically to maintain a constant velocity while moving along a straight line. This type of motion is characterized by a constant speed and no change in direction, making it useful for situations where a steady and predictable movement is required.
The two main kinds of rectilinear motion are uniform rectilinear motion, where an object moves in a straight line at a constant speed, and non-uniform rectilinear motion, where the speed of an object changing as it moves along a straight path.
"Non-uniform" motion is "accelerated" motion.
Two types of accelerated motion are uniform acceleration, where the object's speed increases by the same amount in each unit of time, and non-uniform acceleration, where the object's speed changes irregularly over time.
A rectilinear motion is a motion along a straight line. It can be one, two, or three dimensional. Non-accelerated motion is when a body is in motion, but there isn't a force to speed it up or slow it down. Therefore, non-accelerated rectilinear motion would be a motion along a straight line that has no force trying to speed it up or slow it down.
A rectilinear motion is a motion along a straight line. It can be one, two, or three dimensional. Non-accelerated motion is when a body is in motion, but there isn't a force to speed it up or slow it down. Therefore, non-accelerated rectilinear motion would be a motion along a straight line that has no force trying to speed it up or slow it down.
The objectives of non-accelerated rectilinear motion are typically to maintain a constant velocity while moving along a straight line. This type of motion is characterized by a constant speed and no change in direction, making it useful for situations where a steady and predictable movement is required.
The two main kinds of rectilinear motion are uniform rectilinear motion, where an object moves in a straight line at a constant speed, and non-uniform rectilinear motion, where the speed of an object changing as it moves along a straight path.
"Non-uniform" motion is "accelerated" motion.
Non-uniform motion refers to the type of motion where the speed or direction of an object is changing over time. In non-uniform motion, the object is not moving at a constant speed or in a straight line. Instead, its velocity is varying, and it may be accelerating or decelerating.
Accelerated motion is when an object's speed changes as it moves, either increasing or decreasing. It can be caused by changes in direction, speed, or both, and is characterized by a non-constant velocity.
Two types of accelerated motion are uniform acceleration, where the object's speed increases by the same amount in each unit of time, and non-uniform acceleration, where the object's speed changes irregularly over time.
In physics, an accelerated frame of reference affects the measurement of motion by introducing non-inertial forces that can make it more complex to accurately measure and describe the motion of objects. This can lead to discrepancies in measurements and calculations compared to measurements taken in an inertial frame of reference.
"Non-uniform" motion is another name for "accelerated" motion, that is, anymotion whose speed or direction changes.Anything that starts, stops, speeds up, slows down, turns around, turns a corner,moves along a curved path, or moves in a circle, is experiencing non-uniform motion.Uniform motion is motion in a straight line at a constant speed. It's doubtful thatit can ever be seen on Earth.
A satellite like the space shuttle is in a state of freefall, which means that it is continuously accelerating towards Earth due to gravity, but its forward velocity keeps it in orbit, creating an elliptical path around the planet. This motion can be described as a projectile in a non-accelerated or constant velocity state within the orbital path.
To produce non-accelerated motion, the additional force needed is equal in magnitude to the resultant of the two horizontal forces. In this case, the resultant force is 750 N - 550 N = 200 N forward. Therefore, an additional force of 200 N backward is needed to achieve non-accelerated motion.