Projectile at an angle | Two-dimensional motion | Physics | Khan Academy

This really makes me understand how science and maths suddenly become relevant to each other.

I'm so impressed that Sal can teach so many subjects so well

Sal Khan is the greatest gift to us mortals. We are unworthy of his teaching effectiveness.

let me summarize this. (khan does not use the most direct way of solving this, but its kind of cool nonetheless).
We are given that the initial velocity of a particle has a magnitude of 10 meters/second, and points at an angle of 30 degrees with the horizontal to the right (so this is a vector in 2 dimensions, and we don't need a third dimension). We want to find the total distance this particle covers under only the influence of gravity (no air resistance involved).
First thing we want to do is break down the velocity vector *v* into horizontal and vertical components. That way we can recast a 2-d problem into two 1-d problems, since we know our motion equations for 1-d motion.
So again, we are given that || *v* ||= 10, and theta = 30 degrees. So we can use our knowledge of trigonometry.
v_x = || *v* || cos theta
v_y = || *v* || sin theta
v_x = 10 cos 30 = 8.66 m/s
v_y = 10 sin 30 = 5 m/s
Now lets look at the vertical and horizontal motion separately.
We know that
delta v_y = delta t, where means average acceleration in the vertical direction (not instantaneous acceleration). But we know that for vertical motion in free fall, the acceleration due to gravity is a constant -9.8 m/s^2.
Therefore we can substitute the constant 'a' of -9.8 for .
And we also know that v_yi = 5 m/s and v_yf = -5 m/s by symmetry (sal explains it in the video).
v_yf - v_yi = a* delta t
(-5) - 5 = -9.8* delta t
So delta t = 10/9.8 = 1.02 seconds, which is how long the particle is in the air.
Now we also know that
delta s_x = *delta t.
But here v_x is constant so = v_x , since gravity has no effect on an objects horizontal motion, only vertical. So plugging in we have
delta s_x = 8.66 * delta t
delta s_x = 8.66 * 1.02 = 8.8 meters.

man you're the reason why i have a 90 in physics. thank you

I did not expect the giant calculator lol

"we can assume that we are doing this experiment on the moon" , Still uses the Earth's gravitational force :)

Oh my god I struggled so much in physics doing calculations for stuff I had no idea why I was doing that and in the first minute you already explained 1 million things I was never told! Why we separate the vertical and hor. velocity and how we use them to calculate what. You can only do physics if you understand what you are doing and I can imagine how many people you guys have saved with your videos. thank you

physics is hard

i could learn more and faster if i just followed my curriculum with his videos...id actually learn something

All 35 dislikes are by people who make similar videos but charge for it 😂

Sal, you are so amazing! Its appreciable how one person can explain so many subjects in detail!! Videos by Khan Academy have helped me in understanding a lot of stuff and will always help me in the future! Thank You!!

I wish I had found it before taking my exams, educational nonetheless! :) Great video. Looking forward to learning a lot!

Incredible video. So simply explained in a manner that is short and to the point.

I used equations of uniformly accelerated motion in order to solve it. The one I used was hight = 1/2 g t^2 where t is the time from the velocity equal to zero to the final velocity before it smacks the ground. The total time period was 1.02 sec so the half will be 0.51 sec which is what I plugged in the equation which is two times less than your answer why is that the case? When I plugged the whole time period then it's in line with yours. Shouldn't the half of the time used in the equation?

Man you are the reason why i came to know that physics is this hard

So how would I calculate the angle of initial projectile and angle of impact on a parabolic trajectory? If I were given a ballistics chart based on known drag coefficient specs? For example trajectory leaves at 290 feet traveling a distance of 2000 feet hitting an object at 30 feet from the ground...

Thank god for this video; everything makes so much more sense now :o

@khanacademy
hi sal ,
so i have a question about the vertical velocity , correct me if i was wrong so to get the normal average velocity we do it like this ''delta''V =(Vi+Vf)/2 , but here when you calculated the vertical velocity which is also ''delta''V you calculated it like this ''delta''V = (Vf-Vi) and you used the same formula for the average velocity which is: a=''delta''V/''delta''t so whtat's the difference between those two velocities ?

how would you calculate initial velocity if you know the launch angle and the time that its in the air?

really ur helping me a lot.....right now..esp.. wen i dont get concepts in scool...

WOW! THAT WAS AMAZING!!

very good tutorial...you are doing a very good work!!

How is the initial velocity and final velocity in vertical direction same in magnitude?
Is it because the initial and final position is the same?

if you want the range just use this formula R=vo^2(sin2@)\g .
@= means the theta angle or whatever angle name
it it the fastest way to solve the questing
just use the formula

Is there a video somewhere on describing the flight of a rocket launched at an angle with constant thrust and linearly decreasing mass?

I have an exam in 15 minutes, you’re a lifesaver 😨😨

feeling so crazy that i used the same method u used to remember the trigonometry equations

hi can someone explain why the magnitude of the final velocity is equal to the initial velocity?

What I did was section the object at different places, that is:
Pt. A = starting scenario of the projectile
Pt. B = where the projectile is at its peak height i.e. (zero vertical velocity)
Pt. C = ending point of the projectile
Similarly, I broke the vector down into its x & y components (Note: the x and the y motion of the object is independent and are examined separately USING 1D KINEMATICS EQNS BUT they do share a similar the same parameter which is TIME)
THE SOLUTION:
1. The motion of the object from A to B is SIMILAR to its motion from B to C. So I only examined the motion from A to B.
2. I listed the parameters available in both horizontal and vertical motion (from Pt. A to B) of the projectile.
Horizontal Parameters available
u = 10Cos30 = 5√3
a = 0 (since horizontal velocity is constant for projectile motion)
Vertical Parameters available
u = 10Sin30 = 5
a = -9.8 (negative since the vertical velocity from A to B is decreasing...at Pt. B vertical velocity is zero as learned in 1D kinematics taught by Sir Mahesh Shenoy)
v = 0 (as said above, the final velocity we're considering here is at Pt. B i.e. at max height of projectile where vertical velocity is zero)
3. Pick the appropriate 1D kinematics eqn for each horizontal and vertical motion to solve for the time, t, since it is the parameter common to both horizontal and vertical motion. (time is usually solved in vertical motion since vertical motion offers a lot more parameters to work with)
Vertical motion from Pt. A to Pt. B:
v = u + at
0 = 5 + (-9.8)t
t = 0.51
Horizontal motion from Pt. A to Pt. B:
s = ut + (1/2)*at^2
s = (5√3)*t + 0
s = (5√3)*0.51 ≈ 4.42 (BUT this is incomplete, since this is only the horizontal distance from A to B. we need to multiply the time by 2, therefore doubling the s as expected)
Hence Final Answer is s ≈ 8.83
(Note: the time it took for the projectile to travel from A to B is the same as from B to C, AND since the horizontal distance we need is from A to C, it is in our intuition to double the initial computed s from A to B as a result of doubling the computed time in the vertical motion i.e. from A to B)

how did you get the initial velocity of 5m/s?

Range=V^2.sin(2Q)/g = use this equation to find horizontal displacement

Air resistance is dependent on many factors including the temperature, speed and the object's drag coefficient.

I dont understand the way you did the change in x= 10cos30 = 5Sqroot of 3, when I do that on the calculator I get 8.66 not 10. I that right or wrong?

At 6:25 when he said that -1*(initial velocity)= final velocity I actually got a more mathematical proof of that statement through contradiction and differential calculus. It's too long but if you want it reply to this comment

how did you find the time(delta t)

How do i find the distance and initial velocity if only the angle and height is given?

It's so different to what I'm trying to figure out.

The formula: dx = vi^2 sin(2angle) /g can be also used right? instead of dx = vix t?

Why is the final velocity -5m/s? Wouldn't it be 0m/s at it's final velocity once it hit's the ground?

How do u know which to use when solvingT~T (soh-cah-toa)

color transitioning is difficult. hahahaahah

thank you so much for making these videos

So given the known distance of the target we need to work backward on the angle with the fixed launch velocity of the projectile. How did the pre-satellite artillery men determine the distance between them and the target before they fired?

you saved my life thanks

you guys are my hero

thanks a lot...i just got the idea

This video is very helpful❤️

So good.

This is very useful

OR you can use the Range Equation. its a whole lot faster and its applicable due to y's displacement being 0.
R= (Vo^2*sin2theta)/g R=((10^2)(sin(60)))/9.8 = 8.83m

How in the world does he get those little formulas? I know Vf=vi+at but where is he getting those delta from?

isn't the average velocity the initial velocity + final velocity/2 and not final velocity - initial velocity, can someone answer cause it is confusing me

one question, wont g be negative when y direction moves up and then positive when it moves down? you cant take it to be -ve for both the sides!!

I didn't understood how initial and final velocity are same, if some one knows please explain

What if you are only given the total displacement and the angle?

can you divide meters per second by meters per second squared?

I feel like if physicists can calculate gravity, they should be able to settle on some sort of constant for air resistance. Most of these problems are not valid in the real world.

when you start calculating your change in vertical velocity why doesn't your equation have the initial velocity added in on the right side. I am also confused how the initial velocity is 10m/s when in reality isn't it always zero?

If it is projected at a velocity of 10m/s and it is in the air for 1.02 seconds, then shouldn't the displacement be at least 10 meters?

You could use Pythagoras theorem to get the Vx.

im gonna end up working at mcdonalds

the way he wrote meters a second made me think he was writing m/5.

Was this supposed to help me or question everything I have ever thought

wait if there is acceleration due to gravity in the "y" then how is the initial and final velocity the same magnitude?

I have a question about gravity in 7:35, why did you put negative gravity (-9,8) and no positive gravity (+9,8) ? Thank you in advance!!

Epic video!

sal calculated the time it takes to go up to max height amounting to about 1 sec.
however, the time taken to reach the ground is twice the time taken to reach max height
this means time of flight is 2 seconds
so the distance should be twice the value calculated i.e 17.6 m
please explain if I'm right or where i've gone wrong

Why can we use 10m/s as a length for the hypotenuse when its just speed in a given direction? I know its a vector quantity but it doesnt quite make sense to me..

Thank you so much.

By the way, an easy way to fin Range is:
Range=sin(2(theta))*(velocity)^2/(gravitational acceleration)

Thank you so much!

NICE VID SAL

How do we get-9.8 m/sec?

Somebody please tell me why the final velocity of vertical component has the same magnitude as the initial velocity of the vertical component? I thought it should be different

thanks khan.

Saved my life

It seemed a very counterintuitive answer that it should only go 8 meters when 10m/s launch speed is like 36kmph and I was thinking if one threw a ball at that speed surely as we all know it would go way further . But I was thinking that analogy isn’t the same because even if you threw the ball at the same 30 degree angle you’d be throwing it from a height well above the ground so that added height you’ve given it initially clearly increases it’s air time and total distance . This example would have the Launcher literally sitting on the ground . An average throw speed for a ball would be much faster anyway I’d say .

how do you write so good with your mouse?
when i try, i write HRLO instead of HELLO

Your a lifesaver.

Why would you even use sin, when we know, that in a right triangle if side is oposite to the 30 degree angle, it's half hypotenuse in size

@rdcruick watch the previous videos of projectile motion added by sal sir in the playlist physics it willl explain well

I like that candy too!

why not to know the hang time by that rule y=(viy)(t)-1/2 (g)(t)power 2 like for the first example we have 10 and 30○ :- 0=10sin(30)(x)-1/2 (9.8)(x)power 2 and shift solve on the calculator =1.0204 as we know everything expect the t that we already trying to get g=is always 9.8

may GOd bless you

time in the air is time up + time down i think you are missing something

I a bit confused about the triangle in the video. If the hypotenuse it 10 and it is a right triangle then shouldn't the sides fulfill the 3:4:5 ratio? If the angle is 30deg and it is a right triangle then shouldn't it fulfill the 30,60,90 right triangle pattern? It seems like the two patterns are mutually exclusive...I get a different (incorrect?) answer if I solve the problem using the 3:4:5 ratio. can anyone help me reconcile this?

How did you get initial velocity to = 5 m/s and final velocity to equal -5 m/s? That is where I'm lost. In my head, initial is 0 and so is final.

nice

It is like a colorful worm to me haha

wouldnt the intial velocity be 0 m/s???

what is a magniuted

I don´t understand how he is able to know for certain the final vertical velocity of -5 m/s. As I understand, at that point he has too many unknown variables in the acceleration equations to solve for final vertical velocity.

My new man crush! thank u

cos 30 is √3/2, not √3 :)

All their videos are helpful but damn i couldn't understand this

Man I only have the angle degrees but no velocity.... Idk how to start it.

At about 7:10, he writes this formula:
Delta-Vy = acceleration-y times delta-t.
From where does he get this formula?
The closest thing I can find is one of the four kinematic equations, V=V0+at. However, initial velocity in this example is not zero. It is 5 m/s. Therefore this is not the same equation. It's also not the displacement over velocity formula, or the acceleration equals average velocity over time formula. As far as I can tell this formula came from nowhere. Where did it come from? What is it?

how the hell speed becomes a hypotnuse..i mean hypotenuse is just for lengths

can someone explain to me why he chose to use -9.81 (at 7:53) and not positive 9.81? :(