Projectile Motion Formula Sheet: https://bit.ly/3ZmmL6r
Kinematics - Free Formula Sheet: https://bit.ly/4dtD4Ti
Physics 1 Final Exam Review: https://www.youtube.com/watch?v=CwkhvFlNFp0
Physics PDF Worksheets: https://www.video-tutor.net/physics.html
@JasonSika-y6s Says:
Please how do I access the formula sheet
@JugaduHustle Says:
xn
@JugaduHustle Says:
fn
@JugaduHustle Says:
fdvc
@JugaduHustle Says:
gdf
@JugaduHustle Says:
gd
@JugaduHustle Says:
dg
@JugaduHustle Says:
e
@JugaduHustle Says:
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@KrishShah-pg8zx Says:
Hi! I love your content, but I would like to make a request that would help make your videos more accessible. It looks like your videos are currently using auto-generated captions, and I believe adding manual captions could make a big difference for many people. The auto generated captions sometimes make it difficult to understand the formulas and I believe that editing the captions manually could make a huge difference. If you need any assistance, please reply. Thanks!
@leonardoordonez9658 Says:
OH HEAR THE WISE CHANT OF THEE,FOR HE IS THE ONE WHO SAVES US ON FINALS!
@georgeemmanuella5502 Says:
The link for the formulat sheets aren’t working. Can someone help please
@SamsonSamson-j5g Says:
👍
@alejandroqutierrez5102 Says:
I LOVE YOU MAN
@charlo-d2 Says:
What does "g" mean?
@kuil_xx Says:
i reaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaallyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyyy want to give you a hug
@sonheundeulgo Says:
exam today review today, thank you
@tommym1466 Says:
King
@JoelOkoth-k9v Says:
You're the goat
@fawwazmakinde383 Says:
The link for the sheet formula are not going through @TheOrganicChemistryTutor
@JasonScott-z8p Says:
Physics concepts like projectile motion can be tricky, but with the right resources, they start to click. I’ve seen a lot of students exploring different tutoring platforms, and I’ve found that SolutionInn is a great option for getting deeper insights into topics like this. After trying out various resources, I felt like my understanding of physics improved significantly. Has anyone else noticed how interactive learning really helps with mastering tough concepts?
@DunlopJanet Says:
13093 Elissa Cape
@parthcosic Says:
Sadly very little to no explanation, you can easily explain why cos or sin is used or why some roots are in these formulas, makes them way easier to remember as well cause they make sense then.
@FaithMwitha Says:
I'm having a test in less than an hour😭😭😭
@StreamerBTW99 Says:
I owe you an engineering degree
@ChillVibesDaily Says:
Omg I am not looking forward to this in school………..
@dearhoshii Says:
I’m cooked if this doesn’t help me w physics
@haf2477 Says:
Not me with an exam on this tomorrow only to see he uploaded this last week
@briannawv23 Says:
how did you know i needed this right now
@riyadayalani6360 Says:
godddd
@NJUGUNANGANGA-m6w Says:
Mathematical modelling vidoes plz
@stardrip1V Says:
omg i literally have an exam tomorrow i am blessed
@yaze-uw3hd Says:
The ( g ) = 9.81 m/ s^2 is only applicable for static object such as
weight,
BUT,
NEVER IN THE OBJECT IN MOTIONS AND DYNAMIC FORCES,
BECAUSE OBJECTS IN MOTIONS ARE UNDER THE LAW OF
ENERGY TRANSFORMATION .. .
AND IT INVOLVES THE
" RATE OF GRAVITATIONAL TRANSFORMATION "
WHICH IS THE
WEIGHT OF AN OBJECT OVER THE RATE OF DISTANCE OF TRANSFORMATION.
OR,
IT IS THE RATE OF ENERGY TRANSFORMATION
of
MASS OR WEIGHT OVER DISTANCE
BECAUSE ENERGY OF 1ST DEGREE TRANSFORMATION
IS THE MOMENTUM GENERATED BY MASS OR WEIGHT times the DISTANCE of it's TRANSFORMATION
THAT IS WHY IT HAS THE UNIT OF
NEWTON- METER ( N - m )
and the GRAVITATIONAL ACCELERATION CONSTANT ( g )
Do NOT PERFECTLY DEFINES
THE
ENERGY TRANSFORMATION OF OBJECT IN MOTIONS .. .
Freefall are best defined in the HEIGHT OF DROP ( h ) and TIME ( t ) of fall ,
when do series of tests to take the
HEIGHT AND TIME
YOU WILL UNDERSTAND AS YOU CONVERT THE DISTANCE AND TIME OF FALL INTO THE VELOCITY AND ACCELERATION .. .
Because it is the DISTANCE and TIME, DEFINES THE VELOCITY AND ACCELERATION,
when you take the DATA of Actual Distance ( h ) and TIME ( t )
and use
Instantaneous velocity ( v ) = 2 h / t
gravity acceleration ( g ) = v^2 / 2 h
or
g = 2 h / t^2
for example the
Distance Time ( g )
1 m , 0.7 s , 4.08 m/ s^2
10m , 1.6 s , 7.81 m/ s^2
20m , 2.6 s , 5.91 m/ s^2
50m , 5.6 s , 3.18 m/ s^2
100m , 10.6 s , 1.77 m/ s^2
The TIME is taken from the actual freefall tests and extracted from video editor .. .
As you can observe the, TIME as it increase in growing whole number
and
When you square the time to derive the gravity acceleration ( g ) , 13:28
the RESULTS of ( g ) value fluctuate
to the decreasing whole number .. .
This MEAN ( g ) value is NOT CONSTANT,
BUT,
IT FLUCTUATE in different RATES
WHEN YOU PLUGGED THE ACTUAL TIME TAKEN FROM THE VIDEO RECORDS,
and not from the fancy equation .. .
THAT IS WHY YOU HAVE TO EXPERIMENT MORE
@yaze-uw3hd Says:
your h = 1/2 * g * t^2 equation yield false results,
because the TIME ( t ) of freefall object to reach the ground is only a
LINEAR PERIOD .. .
please try to conduct series of tests
in freefall object,
by dropping an object in incremental heights .. . Record it in high speed camera and extract the TIME ( t ) using video editor
The actual NATURAL PERIOD ( t ) of drops are closer on these DATA
0.5 m = 0.65 sec
1 m = 0.7 sec.
2 m. = 0.8 sec.
3 m = 0.9 sec.
4 m = 1 sec
while in fancy formula of
t = ( 2h / g )^0.5 the data are;
0.5 m = 0.3315 sec.
1 m = 0.4515 sec.
2 m = 0.6385 sec.
3 m = 0.782 sec.
4 m = 0.905 sec.
in 1 meter drop the actual
Natural PERIOD ( t ) = 0.7 sec
while
in kinematics equation
the TIME ( t ) = 0.4515 sec.
This means that the Kinematics equation is a false equation and in REALITY the gravitational acceleration constant ( g ) = 9.81 m / s^2
Does NOT Exist .. .
and the NATURAL PERIOD ( t )
OF FREEFALL, is
t = ( h + 6 ) / 10
NOT
t = ( 2h / g ) ^ 0.5
@FeedFall8 Says:
We just started covering this in class, you are amazing! Thank you!
@deepakprabhakar9488 Says:
I love your video’s ❤ you are literally him❤❤❤❤❤❤❤❤❤❤❤😊😊😊😊😊😊😊😊😊😊😊
@edwin2614jaquez Says:
Omg its been such a long time.
(Wish you read comments, still love the content)
@potatoguy5559 Says:
Please explain how to approach newton's laws 🙏🙏🙏
@aubreylilyflower Says:
face reveal when
@vanessam157 Says:
Do fluid mechanics 🙂↔️🤓☝🏼
@mildracc6191 Says:
This was posted at the perfect moment
@wamahe-elijah Says:
My formula for range =U²Sin20/g I don't where difference is coming from
@learnlab2424 Says:
This is one of the best educational channels that I've ever seen
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