Respuesta :
on a given inclined we know that net force is given by
[tex]F_{net} = - mgsin\theta[/tex]
here we know that
[tex]F_{net} = ma[/tex]
so here we have
[tex]ma = - mg sin\theta[/tex]
[tex]a = - gsin\theta[/tex]
so here acceleration depends directly on angle of inclination
now we also know that if height of the inclined is H and its length is L
then we can write
[tex]sin\theta = \frac{H}{L}[/tex]
so the acceleration is given as
[tex]a = - g*\frac{H}{L}[/tex]
so acceleration also depends directly on height of the inclined plane
Elevation reduces the speed of the car due to increasing gravitational pull and difficulty in movement.
Relation of acceleration, angle and height of elevation
The acceleration of a car traveling on an elevated air track is directly related to the angle and height of elevation because elevation changes the speed of the car due to gravitational pull.
When there is lower angle and height of elevation then less reduction occurs in the speed of car and vice versa so we can conclude that acceleration is directly related to the angle and height of elevation.
Learn more about elevation here: https://brainly.com/question/22136251
