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qualitative
Describing motion using words instead of numbers is called qualitative kinematics. This approach focuses on the characteristics of motion such as speed, direction, and changes in motion without quantifying them numerically.
A quantitative observation means to measure the amount of something. Meaning you would use things like a triple beam balance, graduated cylinder, or a mass scale a ruler, anything that will give you data in numbers not qualitative like color or murkiness of water. So 25 grams not it has a reddish tint to it.
A direct description provides information about something explicitly, without using comparisons or figurative language. It describes characteristics, features, or details of a subject in a straightforward manner. This type of description aims to convey information accurately and clearly.
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The study of motion is known as kinematics. It is a branch of physics that deals with the description of the motion of objects using concepts such as distance, displacement, speed, velocity, and acceleration. Kinematics does not consider the causes of motion, but rather focuses on describing and analyzing motion mathematically.
qualitative
Describing motion using words instead of numbers is called qualitative kinematics. This approach focuses on the characteristics of motion such as speed, direction, and changes in motion without quantifying them numerically.
The kinematics equations are derived by analyzing the relationships between an object's initial velocity, final velocity, acceleration, displacement, and time. By carefully examining these factors and using mathematical principles, such as calculus and algebra, scientists and mathematicians have formulated the kinematics equations to describe the motion of objects in a clear and concise manner.
A quantitative observation means to measure the amount of something. Meaning you would use things like a triple beam balance, graduated cylinder, or a mass scale a ruler, anything that will give you data in numbers not qualitative like color or murkiness of water. So 25 grams not it has a reddish tint to it.
Describing an object using color, shape, size, texture, or form is known as visual description. It involves using these characteristics to provide detailed information about how an object looks and feels. This type of description is often used in art, design, and visual communication to accurately convey the attributes of an object.
Emotional description refers to using words or details to convey emotions or feelings in writing. It involves painting a vivid picture that conveys the emotional state of a character or scene to evoke a specific response from the reader. This type of description can help create a connection between the reader and the story by eliciting an emotional response.
The path of motion of a thrown javelin is an example of projectile motion. This type of motion involves a projectile being launched into the air and moving in a curved path under the influence of gravity. The motion can be described using principles of physics, such as kinematics and dynamics.
The main difference is that there is an extra variable. Say you are using one dimensional kinematics. An example would be the change of a mass on a spring moving along one direction. You could describe this movement along one variable, x, and relate that movement to time or whatever independent variable that makes sense. When you begin to talk about two dimensional kinematics you introduce another variable. Say you throw a ball across a field. The ball will not just move along the x axis but will also move along the y is a travels up and down. So now you have 2 variables that depend on the independent variable of time. Because of this we say that it is two dimensional.
"Analogy" is defined as the description of something unfamiliar using familiar terms.
Kinematics describes the motion of objects without considering the forces causing the motion. The basic rules of kinematics involve defining and analyzing concepts such as displacement, velocity, and acceleration to understand the motion of objects in terms of distance traveled, speed, and changes in velocity over time. These rules are typically applied using equations derived from fundamental principles of physics to describe and predict the behavior of moving objects.