The equation for speed or fast is v=at and the distance is d=1/2 at2
the acceleration is 'a'.
Parallax id the apparent shift in position of an object with respect to the background due to a shift in view point.
The sun when it movesThe size of the object and the position and angle of the sun.
The position of the sun relates to the length of the shadow cast by an object because, when the sun is above the object there is no shadow yet, when the sun is say to the east of the object a shadow is cast towards the west, the farther the sun for example east the longer the shadow will be towards the west.
Altitude describes an object's position relative to sea level. An object in a position higher than sea level would have a positive altitude, sea level would have an altitude of zero, and any object below sea level would have a negative altitude.
There are a number of appropriate words. The most general is "primary", as in "primary object"; the satellite orbits around the primary. This says nothing about what the primary object IS; a sun, a planet, a moon, or an asteroid, any of which can (and often do) have satellites.
1.8 m
Approx 5.1 metres.
Okay so I am not good at this, but I think it is d = (1/2)g*t^2.
Yes, mass is an intrinsic property of matter. However a freely falling object will experience no weight.
the object's falling speed
F(t) = h - 16t2
for a freely falling object displacement(s)=(1/2)gt^2. (g=acceleation due to gravity) if an object is given initial velocity(u) then displacement equation is s=ut+(1/2)gt^2.
Displacement is the change in position of an object. The equation for displacement is Δd = df - di , where Δd is change in position (which is displacement), df is final position, and di is initial position.
Thermochemical equation includes enthalpy ( ΔH ) change in it.
The kinetic energy of anything is determined by the mass and velocity of the substance. This is represented in the equation: KE=(1/2)mv2
It will decrease if the object moves upward; decrease if the object moves downward.
The location of an object is its position.