Physics Derivation Graph: review derivation: projectile path in 2D is parabolic

review derivation: projectile path in 2D is parabolic

This page contains three views of the steps in the derivation: d3js, graphviz PNG, and a table.

Hold the mouse over a node to highlight that node and its neighbors. You can zoom in/out. You can pan the image. You can move nodes by clicking and dragging.

Notes for this derivation:
Using the 2D equations of motion, show that projectile path is second order polynomial of the form y = a x^2 + b x + c

Options

Clicking on the step index will take you to the page where you can edit that step.

Physics Derivation Graph: Steps for projectile path in 2D is parabolic
Index	Inference Rule	Input latex	Feeds latex	Output latex	step validity	dimension check	unit check	notes
4	substitute LHS of expr 1 into expr 2	3274926090; locally 8858248: \(t = \frac{x - x_0}{v_{0, x}}\) \(pdg_{1467} = \frac{- pdg_{1572} + pdg_{4037}}{pdg_{2958}}\) 1405465835; locally 5756391: \(y = - \frac{1}{2} g t^2 + v_{0, y} t + y_0\) \(pdg_{5647} = - \frac{pdg_{1467}^{2} pdg_{1649}}{2} + pdg_{1467} pdg_{9107} + pdg_{1469}\)		7354529102; locally 9683207: \(y = - \frac{1}{2} g \left( \frac{x - x_0}{v_{0, x}} \right)^2 + v_{0, y} \frac{x - x_0}{v_{0, x}} + y_0\) \(pdg_{5647} = pdg_{1469} - \frac{pdg_{1649}^{2} \left(- pdg_{1572} + pdg_{4037}\right)^{2}}{2 pdg_{2958}^{2}} + \frac{pdg_{9431} \left(- pdg_{1572} + pdg_{4037}\right)}{pdg_{2958}}\)	LHS diff is 0 RHS diff is (pdg1572 - pdg4037)(pdg1649(pdg1572 - pdg4037)(pdg1649 - 1) + 2pdg2958(-pdg9107 + pdg9431))/(2pdg2958**2)	3274926090: 1405465835: dimensions are consistent 7354529102:	3274926090: 1405465835: N/A 7354529102:
2	divide both sides by	9882526611; locally 4718749: \(v_{0, x} t = x - x_0\) \(pdg_{1467} pdg_{2958} = - pdg_{1572} + pdg_{4037}\)	6050070428: \(v_{0, x}\) \(pdg_{2958}\)	3274926090; locally 8858248: \(t = \frac{x - x_0}{v_{0, x}}\) \(pdg_{1467} = \frac{- pdg_{1572} + pdg_{4037}}{pdg_{2958}}\)	valid	9882526611: 3274926090:	9882526611: 3274926090:
5	declare final expr	7354529102; locally 9683207: \(y = - \frac{1}{2} g \left( \frac{x - x_0}{v_{0, x}} \right)^2 + v_{0, y} \frac{x - x_0}{v_{0, x}} + y_0\) \(pdg_{5647} = pdg_{1469} - \frac{pdg_{1649}^{2} \left(- pdg_{1572} + pdg_{4037}\right)^{2}}{2 pdg_{2958}^{2}} + \frac{pdg_{9431} \left(- pdg_{1572} + pdg_{4037}\right)}{pdg_{2958}}\)			no validation is available for declarations	7354529102:	7354529102:	expression is a second order polynomial; projecticle motion is parabolic
1	declare initial expr			9882526611; locally 4718749: \(v_{0, x} t = x - x_0\) \(pdg_{1467} pdg_{2958} = - pdg_{1572} + pdg_{4037}\)	no validation is available for declarations	9882526611:	9882526611:
3	declare initial expr			1405465835; locally 5756391: \(y = - \frac{1}{2} g t^2 + v_{0, y} t + y_0\) \(pdg_{5647} = - \frac{pdg_{1467}^{2} pdg_{1649}}{2} + pdg_{1467} pdg_{9107} + pdg_{1469}\)	no validation is available for declarations	1405465835: dimensions are consistent	1405465835: N/A

Symbols for this derivation

See also all 227 symbols

symbol ID	category	latex	scope	dimension	name	Used in derivations	references
9431	variable	v_{0, y} \(v_{0, y}\)	['real']	length: 1 time: -1	initial velocity along y axis	projectile path in 2D is parabolic equations of motion in 2D (calculus)	Velocity	12
1467	variable	t \(t\)	['real']	time: 1	time	Newton's Law of Gravitation angle of maximum distance for projectile motion equations of motion in 2D (calculus) Maxwell equations to electric field wave equation equation of motion for a spring equations of motion in 1D with constant acceleration - SUVAT (algebra) projectile path in 2D is parabolic time invariant force conserves energy derivation of Schrodinger Equation radius for satellite in geostationary orbit speed of Earth around Sun electric field wave equation: from time dependent to time independent Lorentz transformation	Time_in_physics	121
9107	variable	v_y \(v_y\)	real	length: 1 time: -1	velocity along y axis	projectile path in 2D is parabolic equations of motion in 2D (calculus)	str_note	7
1469	variable	y_0 \(y_0\)	['real']	length: 1	initial position	angle of maximum distance for projectile motion projectile path in 2D is parabolic equations of motion in 2D (calculus)		9
1572	variable	x_0 \(x_0\)	['real']	length: 1	initial position	angle of maximum distance for projectile motion projectile path in 2D is parabolic equations of motion in 2D (calculus)		11
5647	variable	y \(y\)	['real']	length: 1	position	Lorentz transformation angle of maximum distance for projectile motion projectile path in 2D is parabolic equations of motion in 2D (calculus)	Position_(geometry)	14
4037	variable	x \(x\)	['real']	length: 1	position	escape velocity particle in a 1D box angle of maximum distance for projectile motion Euler equation: trig square root equations of motion in 2D (calculus) mass of the Earth equation of motion for a spring work and force and energy projectile path in 2D is parabolic time invariant force conserves energy radius for satellite in geostationary orbit velocity at distance r of object dropped from infinity double intensity when phase is coherent (optics) Lorentz transformation	Position_(geometry)	53
1649	variable	g \(g\)	['real']	length: 1 time: -2	acceleration due to gravity	angle of maximum distance for projectile motion mass of the Earth projectile path in 2D is parabolic equations of motion in 2D (calculus)	Gravity	27
2958	variable	v_{0, x} \(v_{0, x}\)	['real']	length: 1 time: -1	initial velocity along x axis	projectile path in 2D is parabolic equations of motion in 2D (calculus)	Velocity	15

MESSAGE:

local variable 'all_df' referenced before assignment