Kinematics Models

These models and simulations have been tagged “Kinematics”.

Related tagsPhysicsWind Resistance

Insight diagram

Clique aqui para ver uma descrição do que é Movimento Uniformemente Variado

Exemplo:

(FUVEST -2004) Um veículo parte do repouso em movimento retilíneo e acelera com aceleração escalar constante e igual a 2,0 m/s2. Pode-se dizer que sua velocidade escalar e a distância percorrida após 3,0 segundos, valem, respectivamente:

Clone of Movimento Uniformemente Variado
Profile photo Thaynara Ferreira de Souza
Insight diagram
Spring-Mass model used in IACS physics class
Clone of Spring-Mass Model
Profile photo Maiel Richards
Insight diagram
Spring-Mass model used in IACS physics class
Clone of Spring-Mass Model
Profile photo Kaitlyn Fraser
Insight diagram
Clone of Wind Resistance Model
Profile photo Ariana Schmidt
Insight diagram
Spring-Mass model used in IACS physics class
Clone of Spring-Mass Model
Profile photo luis gomez
Insight diagram
Clone of Wind Resistance Model
Profile photo Jason McFeeley
Insight diagram
Nik Vieira's Wind Resistance Model
Profile photo Nik
Insight diagram
Spring Model
Profile photo Maiel Richards
Insight diagram
Clone of Wind Resistance Model
Profile photo Miguel Montero
Insight diagram
Clone of Grant McEnaney Rocket Model 2015
Profile photo Grant O. McEnaney
Insight diagram

Um ponto material percorre uma trajetória circular de raio R = 20m com movimento uniformemente variado e aceleração escalar a = 5m/s². Sabendo-se que no instante t = 0 sua velocidade escalar é nula, determine no instante t = 2s os módulos da:

a) Velocidade vetorial;

b) Aceleração tangencial;

c) Aceleração centrípeta;

d) Aceleração vetorial.

Fonte: (RAMALHO,NICOLAU E TOLEDO; Fundamentos da Física, Volume 1, 8ª edição, pp. 12 – 169, 2003).

Clique aqui para ver uma descrição do que é Movimento Vertical no Vácuo.

Clone of Velocidade e Aceleração Vetorial
Profile photo Nilo Guimaraes
Insight diagram
Clone of Wind Resistance Model
Profile photo Ariana Schmidt
Insight diagram
Rocket Model
Profile photo Nick Kaffine
17
Insight diagram
Rocket Model Mach 3
Profile photo Jason McFeeley
Insight diagram
Clone of Wind Resistance Model
Profile photo Hannah A
Insight diagram
Rocket Model including wind resistance
Rocket Model
Profile photo Christopher DiCarlo
13
Insight diagram
Clone of Wind Resistance Model
Profile photo Onur Alp
Insight diagram
Clone of Wind Resistance Model
Profile photo Christopher DiCarlo
23
Insight diagram
Spring Thing
Profile photo Nick Kaffine
Insight diagram

object is projected with an initial velocity u at an angle to the horizontal direction.

We assume that there is no air resistance .Also since the body first goes up and then comes down after reaching the highest point , we will use the Cartesian convention for signs of different physical quantities. The acceleration due to gravity 'g' will be negative as it acts downwards.

h=v_ox*t-g*t^2/2

l=v_oy*t
Launched at an Angle
Profile photo Tsogbadrakh Banzragch
4
Insight diagram
Wind Resistance Model
Profile photo Nick Kaffine
18
Insight diagram
Clone of Clone of Rocket Model
Profile photo Isaac Donkoh-Halm
Insight diagram
Rocket Model including wind resistance
Clone of Rocket Model
Profile photo Paul Oberressl
Insight diagram
resistencia al aire
Profile photo Carlos Daniel Segundo