Analyzing motion of a projectile

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burt

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I am working on vector valued functions and I'm trying to solve a problem about analyzing the motion of a projectile. The problem is: 1584468121494.png.
When I look in the textbook at the example problem, it says 1584468196090.png. I'm not understanding where the assumption that 1584468223290.pngcomes from. Is anyone able to explain?
 
That's something called gravity.

It's a vector that points downward (-j), and its magnitude is mg, based on Newton's F = ma.

Has your book said anything about the physics of projectiles, or does it assume you know the physics?
 
Dr.Peterson said:
That's something called gravity.

It's a vector that points downward (-j), and its magnitude is mg, based on Newton's F = ma.

Has your book said anything about the physics of projectiles, or does it assume you know the physics?
Click to expand...
I think it's pretty much assuming you know the physics
 
Dr.Peterson said:
That's something called gravity.

It's a vector that points downward (-j), and its magnitude is mg, based on Newton's F = ma.

Has your book said anything about the physics of projectiles, or does it assume you know the physics?
Click to expand...
Oh - j is the standard basis vector in the down direction. mg is the magnitude and is made up of the mass times the constant acceleration of gravity. That is really just ma like force usually is equal to just with a direction. Is that right?
 
Dr.Peterson said:
That's something called gravity.
Click to expand...
? Pet peeve alert!! Danger Will Robinson, danger!

To paraphrase
That's something called [math]\color{red}weight[/math].

Calling it gravity isn't really wrong, it's just not as accurate to my mind.

Danger over. ?

-Dan
 
topsquark said:
? Pet peeve alert!! Danger Will Robinson, danger!

To paraphrase
That's something called [math]\color{red}weight[/math].

Calling it gravity isn't really wrong, it's just not as accurate to my mind.

Danger over. ?

-Dan
Click to expand...
That was almost was dangerous as "pi, not pie!"
 
topsquark said:
Calling it gravity isn't really wrong, it's just not as accurate to my mind.
Click to expand...

I was speaking of the phenomenon called gravity, not saying that the quantity (vector) is called gravity.

I think that's valid, isn't it?

burt said:
Oh - j is the standard basis vector in the down direction. mg is the magnitude and is made up of the mass times the constant acceleration of gravity. That is really just ma like force usually is equal to just with a direction. Is that right?
Click to expand...
Yes.

Specifically, this is a force vector (due to gravity). And g represents the acceleration due to gravity, which is a specific value of a.

Technically, Newton's second law is F = ma, where F and a are vectors. In this case, a = -gj.
 
Thank you!
Dr.Peterson said:
I was speaking of the phenomenon called gravity, not saying that the quantity (vector) is called gravity.

I think that's valid, isn't it?


Yes.

Specifically, this is a force vector (due to gravity). And g represents the acceleration due to gravity, which is a specific value of a.

Technically, Newton's second law is F = ma, where F and a are vectors. In this case, a = -gj.
Click to expand...
Thank you!
 
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