Want this question answered?
If no other external forces act (apart from weight), the acceleration on a fixed slope remains constant. This is because acceleration is given by: a=gsino where g is the acceleration of free fall and o is the angle between the slope and the horizontal.
The force of gravity on object can differ because of its slope. An object can pick up quick acceleration at a steep slope due to the force of gravity than normal slopes. We say that gravity is force of attraction between the body and the surface of the earth. at a slope gravity attracts the object to itself. The gravitational force is 9.8N. when gravity attracts the object to itself than for sure the object will gain acceleration but the acceleration rate of the object will differ by the slope that it has been pulled.
Yes it is, Force down a slope is F= mgsinA a=gsinA Constant is therefore a and sin is function applied to the angle
The rate at which acceleration is changing.
Velocity is the derivative of position with respect to time (v = dx/dt). Acceleration is the derivative of velocity with respect to time (a = dv/dt) and therefore the second derivative of position with respect to time (a = d2v/dt2). A derivative basically refers to the "rate of change" - graphically, it is the slope on a curve.
yes, the slope of the line is the tangent of the angle
If no other external forces act (apart from weight), the acceleration on a fixed slope remains constant. This is because acceleration is given by: a=gsino where g is the acceleration of free fall and o is the angle between the slope and the horizontal.
Yes.
The force of gravity on object can differ because of its slope. An object can pick up quick acceleration at a steep slope due to the force of gravity than normal slopes. We say that gravity is force of attraction between the body and the surface of the earth. at a slope gravity attracts the object to itself. The gravitational force is 9.8N. when gravity attracts the object to itself than for sure the object will gain acceleration but the acceleration rate of the object will differ by the slope that it has been pulled.
There is no relationship between slope and the theorem, however the theorem does deal with the relationship between angles and sides of a triangle.
Yes it is, Force down a slope is F= mgsinA a=gsinA Constant is therefore a and sin is function applied to the angle
The slope of a roller coaster describes how steep the roller coaster is. Knowing the angle of the slope will tell you how steep a roller coaster is.
Yes, there a relationship between the sign (positive or negative) of the slope of a line and the angle the line makes with the x-axisWhen a line slopes up from left to right, it has a positive slope. This means that a positive change in y is associated with a positive change in x. The steeper the slope the greater the rate of change in y in relation to the change in x.When a line slopes down from left to right, it has a negative slope. This means that a negative change in y is associated with a positive change in x.
Acceleration.
The line has a negative slope (or negative gradient).When the angle between the line and the positive direction of Ox is obtuse then the slope is negative. Conversely, when the angle is acute, the slope is positive.
The slope is the rise/run.And then angle of incline = arctan(slope).
if there is a slope, the velocity is either increasing or decreasing. This is acceleration.