write equations and laws of rotational motion
Answers
Answer:
Equations
Equation Symbols
v = ω r v = \omega r v=ωr v v v is linear speed, ω is angular speed, and r is radius
α = Δ ω Δ t \alpha = \dfrac{\Delta \omega}{\Delta t} α=ΔtΔω α \alpha α is average angular acceleration, Δω is change in angular velocity, and Δ t \Delta t Δt is change in time
Explanation:
The equations given above in Table 1 can be used to solve any rotational or translational kinematics problem in which a and α are constant.
The equations given above in Table 1 can be used to solve any rotational or translational kinematics problem in which a and α are constant....
The equations given above in Table 1 can be used to solve any rotational or translational kinematics problem in which a and α are constant....Making Connections.
The equations given above in Table 1 can be used to solve any rotational or translational kinematics problem in which a and α are constant....Making Connections.Rotational Translational
The equations given above in Table 1 can be used to solve any rotational or translational kinematics problem in which a and α are constant....Making Connections.Rotational Translational ω = ω0 + αt v = vo + at (constant α, a)
The equations given above in Table 1 can be used to solve any rotational or translational kinematics problem in which a and α are constant....Making Connections.Rotational Translational ω = ω0 + αt v = vo + at (constant α, a)θ=ω0t+12αt2 x=v0t+12at2 (constant α, a)
The equations given above in Table 1 can be used to solve any rotational or translational kinematics problem in which a and α are constant....Making Connections.Rotational Translational ω = ω0 + αt v = vo + at (constant α, a)θ=ω0t+12αt2 x=v0t+12at2 (constant α, a)ω2 = ω02+ 2αθ v2 = vo2 + 2ax (constant