write the acknowledgement of the chapter of motion in One dimension
Answers
Answer:
In this module, you are introduced to motion (kinematics) without considering what caused
it. There are fundamental principles governing motion, and they can be used to explain the
motion of an object. Motion of objects and people can be quite complex, so we usually
simplify it in a number of ways. In this module, you will study straight line motion and then
you will look at motion under constant acceleration. Motion in two dimensions will be
studied with the use of vectors. This module has four (4) four topics. The first topic explains
the characteristics of motion. It describes the different types of motion that we see and
experience every day. The next topic is all about reading and plotting graphs. Motion in
straight line, help us calculate the distance, displacement, acceleration speed, and velocity of
an object moving along the surface or falling downwards. The equations of motion, you will
study under linear motion can be applied in two dimensional motion. The projectile, circular
and rotary motions are the topics that explain moving objects in the circular path. The
learning activities and their answers are given right after you study each topic to help
understanding it better. However, there may be some words that may be slightly difficult. If
you cannot understand a word or words, please do consult your tutor.
This module is also a follow up to the first module on Measurement. It requires reasoning
skills and your knowledge of mathematics to help you solve word problems. You will also
need to have a scientific calculator to assist you in your calculations. Always remember to
take note of any equation and formulas that you come across in the module for use in other
modules. The more you use them you will go through the module with ease. At the end of
the module, you will find a table of units containing some quantities with their
corresponding units that should help to solve word problems. The picture below shows
examples of motions we see every day.
Explanation:
Rotational motion is more complicated than linear motion, and only the motion of rigid bodies will be considered here. A rigid body is an object with a mass that holds a rigid shape, such as a phonograph turntable, in contrast to the sun, which is a ball of gas. Many of the equations for the mechanics of rotating objects are similar to the motion equations for linear motion.