Kinematics all formulae
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PV - nRT
P-1/3VmNv`^2
P-1/3pv`^2
P-1/3VmNv`^2
P-1/3pv`^2
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Kinematics Formula is all about the motion of bodies at points, without considering the cause due to which it occurs.
There are three kinematic formulas namely:
Kinematics Formulas
Here,
xo and x are Initial and final displacements expressed in m,
vo and v are initial and final velocity expressed in m/s,
a is acceleration given in m/s2,
t is time taken in s.
2D Kinematics Formulas
2D or 2 dimensional kinematics equations is all about expressing the same equations in x and y directions:
In x direction the Kinematics formulas is given as:
vx = vxo + axt
x = xo + vxot + 1212 axt2
vx2 = vxo + 2ax(x-xo)
In y-direction the Kinematic formula is given as:
vy = vyo + ayt
y = xo + vyot + 1212 ayt2
vy2 = vyo2 + 2ay(y - yo).
Kinematics Formulas for Projectile Motion
Projectile Motion
Consider a projectile motion as shown in figure the kinematics formulas are:
In x-direction:
vx = vxo
x = xo + vxo
In y-direction:
vy = vyo - gt
y = yo + vyot - 1212 gt2
vy2 = vyo2 - 2g(y - yo)
There are three kinematic formulas namely:
Kinematics Formulas
Here,
xo and x are Initial and final displacements expressed in m,
vo and v are initial and final velocity expressed in m/s,
a is acceleration given in m/s2,
t is time taken in s.
2D Kinematics Formulas
2D or 2 dimensional kinematics equations is all about expressing the same equations in x and y directions:
In x direction the Kinematics formulas is given as:
vx = vxo + axt
x = xo + vxot + 1212 axt2
vx2 = vxo + 2ax(x-xo)
In y-direction the Kinematic formula is given as:
vy = vyo + ayt
y = xo + vyot + 1212 ayt2
vy2 = vyo2 + 2ay(y - yo).
Kinematics Formulas for Projectile Motion
Projectile Motion
Consider a projectile motion as shown in figure the kinematics formulas are:
In x-direction:
vx = vxo
x = xo + vxo
In y-direction:
vy = vyo - gt
y = yo + vyot - 1212 gt2
vy2 = vyo2 - 2g(y - yo)
Jas12345:
Thnx for the answer
^_^
Tk
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