Question

Quick Tutorial:-{Motion}

Answer 1

Motion:-If the position of the object changes as time passes, it is said to be in Motion.\[\LARGE{\color{gold}{\star \star}{\color{red}{\text{Motion is not absolute; it is relative.}}}}\]It's a scalar quantity as it has no direction.Motion is of two types:-
1.)Uniform Motion
2.)Non-Uniform Motion

Answer 2

There are three laws of motion:- 1.)Every body remains in a state of rest or uniform motion in a straight line unless acted upon by forces from the outside. 2.)The amount of acceleration of a body is directly proportional to the acting force & inversely proportional to the mass of the body. 3.)Every action has an equal & opposite reaction.

Answer 3

How's that??

Answer 4

where are the pictures and equations ?

Answer 5

\[\Large{\color{red}{\text{It's a basic concept on Motion & is my first Tutorial.}}}\]\[\Huge{\color{green}{☻}}\]

Answer 6

1) [; v = u+at ;]
2) [; v^2 = u^2+2as ;]
3) [; s = ut + \frac{1}{2}at^2 ;]

Answer 7

also ..there is a nice proof of these equations by Calculus

Answer 8

Yes! nice☺

Answer 9

http://openstudy.com/users/mathslover#/updates/4fdb4e0ee4b0f2662fd171a3

Answer 10

tutorial made by me

Answer 11

Nice one☺

Answer 12

@UnkleRhaukus
Is my first tutorial nice??

Answer 13

Motion is not a quantity.

Answer 14

i think relative motion does have direction

Answer 15

k! I also got some knowledge!
Thanx everyone ☻

Answer 16

@radar sir see this & give a comment plz\[\Huge{\color{black}{☻}}\]

Answer 17

cool:)

Answer 18

thanx again:)

Answer 19

Very well done TheViper, makes a good start for a series of tutorials on motion, velocity, and acceleration. thanks for steering me to it.

Answer 20

Thank u sir! @radar

Answer 21

Good my bro:)
But u still improve it.

Answer 22

still can*

Answer 23

Motion If the position of a material system as measured by
a particular observer changes with respect to time, that system
is said to be in motion with respect to the observer. Absolute
motion, then, has no significance, and only relative motion may
be defined; what one observer measures to be at rest, another
observer in a different frame of reference may regard as being
in motion.
The time derivatives of the various coordinates used to specify
the system may be used to prescribe the motion at any instant
of time. How the motion develops in subsequent instants is then
determined by the laws of motion. In classical dynamics it is
supposed that in principle the motion and configuration of the
system may be specified to an arbitrary precision, although in
quantum mechanics it is recognized that the measurement of the
one disturbs the other.
The most general theory of motion that has yet been developed
is quantum field theory, which combines both quantum
mechanics and relativity theory, as well as the experimentally
observed fact that elementary particles can be created and annihilated.
\[\text{So now it looks more good.}\]

Answer 24

@mathslover was right if u had added some knowledge about equations, then it could more better same as @mathslover tutorial:D
So try to improve:)

Answer 25

kinematics{motion} equation*

Answer 26

Looks like we are bringing the theory of relativity.

Answer 27

no but something should be there
becoz "Motion is not absolute, it is relative":D

Answer 28

Understand. It keeps getting better.

Answer 29

Thanx sir:)

Answer 30

I guess a problem regarding motion would depend on the specific observer, heck their may be more than one answer.

Answer 31

yup:)

Answer 32

becoz "The motion depends on the choice of reference frame"

Answer 33

as long as the frame of reference is provided.......it may be solved.

Answer 34

ya @radar sir u r 100% correct
I totally agree with u:)

Answer 35

"quantum mechanics recognized that the measurement of the
one disturbs the other."
this not what the uncertainty principle suggests

Answer 36

the uncertainty principle is not about measurements

Answer 37

@UnkleRhaukus what do u wanna say?
Actually I haven't studied about QM yet.

Answer 38

Plz tell more:)

Answer 39

the uncertainty principle suggests that for example the position and momentum of a particle are not definable to perfect accuracy. if either is known exactly the other is un-determinable

Answer 40

Oh i see so as a summary "Motion is undefined unless a reference frame is there".

Answer 41

@myininaya plz see & give comments:)

Answer 42

@myininaya @Mertsj @ParthKohli @apoorvk @ajprincess @ujjawal plz see & give comments:)

Answer 43

anything wrong here??

Answer 44

nice:) @theviper

Answer 45

if an object has uniform velocity, \(v(t)\)
at every moment in time the object can be assigned
a displacement position \(x(t) = \int\limits_0^t\text dv\)
at any particular point in time the object is confined
to a single point in space.

how does the object move?

Answer 46

thanx & I will do it @ my home.
thanx again:)

Answer 47

plz tell me how to this?? @UnkleRhaukus