wave
A straight diagonal line on a distance-time graph represents an object moving with uniform motion. This line shows a constant speed where the distance covered increases at a steady rate over time.
The slope of a distance-time graph represents the direction of motion. A positive slope indicates motion in the positive direction, while a negative slope indicates motion in the negative direction. A horizontal line represents no motion.
Uniform motion is when an object moves with a constant speed in a straight line. Uniform acceleration is when an object's velocity changes at a constant rate. In uniform acceleration, the speed of the object increases or decreases by the same amount over equal time intervals.
Newton's first law of motion states that an object will remain at rest or in uniform motion unless acted upon by an external force. Mathematically, it can be expressed as ΣF = 0, where ΣF represents the net force acting on an object and 0 indicates that the object's velocity remains constant.
Newton's first law of motion states that momentum is a property of a mass system that is conserved as long as no net force is applied on it. If the question refers to Newton's second law of motion, the answer is yes.
A distance-time graph can provide a pictorial indication of how far an object has moved. The slope of the graph represents the object's speed, where a steeper slope indicates faster motion. The area under the curve on the graph represents the total distance traveled by the object.
The types of motion include linear motion (movement in a straight line), rotational motion (movement around an axis), and oscillatory motion (repetitive back-and-forth movement). Other types of motion include circular motion, periodic motion, and translational motion.
Think of uniform as everything moving together. For example, in uniform circular motion describes the motion of a body traversing a circular path at constant speed. The distance of the body from the axis of rotation remains constant at all times. If the motion was non-uniform the distance of the body from the axis of rotation would vary.
For uniform motion, the distance-time graph is a straight line because the object covers equal distances in equal time intervals. For non-uniform motion, the distance-time graph is curved because the object covers unequal distances in equal time intervals or equal distances in unequal time intervals.
Think of uniform as everything moving together. For example, in uniform circular motion describes the motion of a body traversing a circular path at constant speed. The distance of the body from the axis of rotation remains constant at all times. If the motion was non-uniform the distance of the body from the axis of rotation would vary.
Yes.
A motion that is constant over a period of time is called uniform motion. In uniform motion, an object covers an equal amount of distance in equal time intervals without changing its speed or direction.
In uniform motion, an object travels at a constant speed in a straight line, while in non-uniform motion, the speed or direction of the object changes over time. The distance-time graph for uniform motion is a straight line, while for non-uniform motion, the graph is curved or uneven.
flat
Uniform motion refers to motion at a constant speed in a straight line, while non-uniform motion involves changing speed, direction, or both. Uniform motion can be described by a straight line on a distance-time graph, while non-uniform motion would have a curved line.
Uniform motion is described by distance divided by time, such as, miles per hour, commonly used to describe the motion of a car, or kilometers per hour for those who prefer the metric system.
In uniform linear motion, distance traveled increases linearly with time. This means that for every constant unit of time that passes, the object covers an equal amount of distance. The relationship between distance and time is constant and can be represented by a straight line on a distance-time graph.
the distance time graph will show a linear or a straight line