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urp:physgen [2021-10-18] nerf_herder |
urp:physgen [2022-02-01] (current) nerf_herder [Newton's 3 laws] |
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- | ==== General Physics ==== | + | ===== General Physics ===== |
- | * [[#Newton's 3 laws]] | + | |
- | * [[#Distance, time, velocity, acceleration]] | + | |
- | * [[#Collisions]] | + | |
- | * [[#Inclined plane]] | + | |
- | * [[#Spring and lever]] | + | |
- | * [[#Projectile fired at an angle]] | + | |
- | * [[#Buoyant force]] | + | |
- | * [[#Gravity]] | + | |
- | * [[#Kinematics]] | + | |
- | * [[#Miscellaneous]] | + | |
====Newton's 3 laws==== | ====Newton's 3 laws==== | ||
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Basic definitions: | Basic definitions: | ||
- | * Force is in newtons or pounds. One newton = 1kg * m / s² (the force needed to accelerate 1kg at 1 m/s²) | + | * **Force** is in newtons or pounds. One newton = 1kg * m / s² (the force needed to accelerate 1kg at 1 m/s²) |
* f = ma | * f = ma | ||
- | * Momentum is p | + | * **Momentum** is p |
* p = mv | * p = mv | ||
- | * energy = work (joules) = force * distance | + | * **energy or work** (joules) = force * distance |
* J = F*d = applying 1 newton for 1 meter (units of kg * m²/s²) | * J = F*d = applying 1 newton for 1 meter (units of kg * m²/s²) | ||
* F = J/d | * F = J/d | ||
+ | * Work is positive if it is applied in the same direction as movement | ||
+ | * No (net) work is done moving an object horizontally some set distance (unless you overcome friction) - it does not gain or lose potential energy, or have increased kinetic energy at the conclusion | ||
+ | * **power** = work/time (joules/sec or watts) | ||
Fnet = Δp / Δt (since p = mv and Δv/Δtime = acceleration) | Fnet = Δp / Δt (since p = mv and Δv/Δtime = acceleration) | ||
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When parallel force > friction, it is unbalanced and objects will move down the plane | When parallel force > friction, it is unbalanced and objects will move down the plane | ||
Applied force - friction = net force | Applied force - friction = net force | ||
+ | |||
+ | ====Friction==== | ||
+ | Coefficient of friction | ||
+ | * μ = f/N (force applied divided by Normal force) | ||
+ | * fNet = fApp - Ffriction | ||
static friction - | static friction - | ||
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N = normal force) must be overcome before the mass moves | N = normal force) must be overcome before the mass moves | ||
μS = fs/N = m*g*sin(θ) / m*g*cos(θ) = sin(θ)/cos(θ) = tan(θ) | μS = fs/N = m*g*sin(θ) / m*g*cos(θ) = sin(θ)/cos(θ) = tan(θ) | ||
- | kinetic friction - normal moving friction | + | kinetic friction - moving friction |
only one type of friction applies at a time | only one type of friction applies at a time | ||
- | ====Spring and Lever==== | ||
- | **Hooke's law** for springs: F=-kx, k=spring constant, x = displacement | ||
- | |||
- | **Fulcrum**: t = r * f (torque = radius * force) | ||
- | just add the torques for multiple objects on one side of a fulcrum | ||
====Projectile fired at an angle==== | ====Projectile fired at an angle==== | ||
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vf²= vo² + 2ad | vf²= vo² + 2ad | ||
vf = v0 + at | vf = v0 + at | ||
+ | |||
+ | |||
+ | ====Optics==== | ||
+ | Refraction on going into a different medium | ||
+ | |||
+ | **Snell's law** | ||
+ | sin(θ₁) / sin(θ₂) = v₁/v₂ = n₂/n₁ (note that the n values are reversed) | ||
+ | v = velocity of light in that medium, n = index of refraction | ||
+ | v = c/n (c = speed of light in a vacuum) | ||
+ | it bends towards the normal direction when entering denser material | ||
+ | (and slows down). bend is because photons are waves. | ||
+ | |||
+ | Critical angle : smallest angle that results in total reflection, no refraction | ||
+ | θc = arcsin(n₂/n₁) | ||
+ | |||
====Miscellaneous==== | ====Miscellaneous==== | ||
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DV = dependent variable - the variable measured (changes because of the experiment) y axis | DV = dependent variable - the variable measured (changes because of the experiment) y axis | ||
+ | FBD = free body diagram - a drawing of mass and all the forces that are applied to it. | ||
Back to the [[physics]] page or the [[00_start|start]] page. | Back to the [[physics]] page or the [[00_start|start]] page. |