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Catégorie :Category: nCreator TI-Nspire
Auteur Author: centsz
Type : Classeur 3.0.1
Page(s) : 1
Taille Size: 1.57 Ko KB
Mis en ligne Uploaded: 14/11/2024 - 03:19:43
Uploadeur Uploader: centsz (Profil)
Téléchargements Downloads: 1
Visibilité Visibility: Archive publique
Shortlink : http://ti-pla.net/a4316130
Type : Classeur 3.0.1
Page(s) : 1
Taille Size: 1.57 Ko KB
Mis en ligne Uploaded: 14/11/2024 - 03:19:43
Uploadeur Uploader: centsz (Profil)
Téléchargements Downloads: 1
Visibilité Visibility: Archive publique
Shortlink : http://ti-pla.net/a4316130
Description
Fichier Nspire généré sur TI-Planet.org.
Compatible OS 3.0 et ultérieurs.
<<
static friction: fs<= mews*FN (or mg) Kinetic friction: fk = mewk*FN (or mg) mews > mewk modified Atwood machine: Acceleration: a=(2g)/(m1+m2) Tension: T=m1a pulley system or elevator problem: Acceleration: a=(m2-m1)*g/m1+m2 Tension: m1g + m2a & m2g - m2a Incline: Sliding down: ax = gsin0 (No friction) ax = gsin0 - mewk*g*cos0 (with friction) up the ramp: opposite of down the ramp what is the final speed of the block after it travels 200m down the incline? (Use kinematics) VF^2 = VO^2+2ad Hooke's law: Spring force equation: k = (mg*sin(¸))/x F=-kx where is x is displacement Applied force equation: Favg = 1/2mv^2/d drag = Fd = -bv Terminal velocity: mg-bv=0 Low speed term velo: VT = mg/b Made with nCreator - tiplanet.org
>>
Compatible OS 3.0 et ultérieurs.
<<
static friction: fs<= mews*FN (or mg) Kinetic friction: fk = mewk*FN (or mg) mews > mewk modified Atwood machine: Acceleration: a=(2g)/(m1+m2) Tension: T=m1a pulley system or elevator problem: Acceleration: a=(m2-m1)*g/m1+m2 Tension: m1g + m2a & m2g - m2a Incline: Sliding down: ax = gsin0 (No friction) ax = gsin0 - mewk*g*cos0 (with friction) up the ramp: opposite of down the ramp what is the final speed of the block after it travels 200m down the incline? (Use kinematics) VF^2 = VO^2+2ad Hooke's law: Spring force equation: k = (mg*sin(¸))/x F=-kx where is x is displacement Applied force equation: Favg = 1/2mv^2/d drag = Fd = -bv Terminal velocity: mg-bv=0 Low speed term velo: VT = mg/b Made with nCreator - tiplanet.org
>>
