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What else can I help you with?
Can you give me an example of an inclined plane?
A sliding board at the playground.
Why doesn't a box move down a inclined plane?
because the friction involved in the box sliding down has overcome the pull of gravity.
How does a inclined plane works?
it is a slanted something that's makes lifting things easier by sliding them to where you need them to be.
Is an object falling freely equivalent to the object sliding down on a frictionless inclined plane?
intresting to say, one would say yes, but its a little bit more complicated. The object that is falling freely has a just one vector which is going down equivalent to the gravity constant, therefore could be seen as E(z)->=mgh. Looking at the frictionless inclined plane, the movement consist of two vectors, one moving down, which has the exact composition as the object falling freely (and therefore with the exact same resistance factor), but the second vector participates as well, to move it in the horizontal plane. High school physics learns us that in an experiment that where one ball is falling freely and an other shot at the exact time in the horizontal direction will fall at the ground at the same time. However, due to the fact that this is an inclined plane, one could say in general that there is a possibility that they will fall together, but I'm not sure of that. The horizontal movement might induce some wind resistance and furthermore, its downfall component sees a lot of resistance, to its partly neglected. The answer for your question would be then; It depends based on factors, such as the gradient of inclining and the amount of wind resistance produced to its horizontal movement
What are real life examples of inclined planes?
Civil engineers need to know how much they have to slope the ground around roadways. If the slope isn't right we end up with debris sliding down embankments into roadways. Falling rocks, anyone?
What is the accereleration of 2kg mass slding down a frictionless ramp?
The acceleration of a 2kg mass sliding down a frictionless ramp is equal to the acceleration due to gravity, which is approximately 9.8 m/s^2. This acceleration remains constant as there is no force acting against the motion of the mass on a frictionless surface.
What requires less effort sliding a 1 kg box on an ordinary floor or sliding a 2000 kg box on a frictionless floor?
2000 kg box on a frictionless floor
A body is sliding down an inclined planeThe speed changes at a constant rate from 12m per s to 18m per s in 4 secondsWhat is its acceleration?
the acceleration is 54 < your welcome!!!
How come all bodies sliding down a frictionless inclined plane have same acceleration?
all bodies have same acceleration while coming down from an inclined plane because in such type of case acceleration does not depends upon mass....acceleration can be given as a=gsinθ......θ(theta) is the angle of the inclined plane. g is the acceleration due to gravity or 9.81 m/s2.*Note: the acceleration due to gravity is actually based on the mass of both bodies and the square of the distance between their centers. While this means that gravity (acceleration) is not equal for all bodies, the mass of the Earth is so much greater than any measurable bodies, that can move down the inclined plane. The mass of the body is negligible in comparison and thus the change in acceleration due to gravity is likewise negligible, and generally not measurable. If a mass the size of the moon were moving down the inclined plane, then that would definitely indicate a greater acceleration.F = m1m2/r2. Where F = force of gravity, m1 = mass of body 1, m2 = mass of body 2, and r = the distance between the bodies.
Describe uniformly accelerated motion in an inclined plane?
a body sliding down an inclined plane also moves with constant acceleration on account of gravity, but the acceleration down the plane is very much less than the acceleration of free falling body, especially if the angle made by the plane with the horizontal is small
A body slides down a frictionless plane and during the third second after starting from rest it travels 19.4m what is the angle of inclination of the plane?
Using the equation of motion for an object sliding down a frictionless incline, we have d = (1/2)at^2, where d is the distance traveled, a is the acceleration, and t is the time. Solving for acceleration a gives a = (2d) / t^2. Substituting the given values, a = (2*19.4) / 3^2 = 12.89 m/s^2. Since a = gsinθ, where g is the acceleration due to gravity (9.81 m/s^2) and θ is the angle of inclination, we can solve for θ: 12.89 = 9.81sinθ. Therefore, θ = sin^(-1)(12.89 / 9.81) ≈ 53.82 degrees.
What is the Relationship between acceleration and angle of slope?
The acceleration of an object on an inclined plane is directly influenced by the angle of the slope. As the angle of the slope increases, the component of the gravitational force acting parallel to the surface of the incline also increases, leading to a greater acceleration of the object sliding down the slope.
Can you give me an example of an inclined plane?
A sliding board at the playground.
How did changing the slope of the inclined plane change your velocity and acceleration values?
Increasing the slope of the inclined plane will increase the velocity of an object sliding down it due to gravity pulling the object downward with more force. The acceleration of the object will also increase because there will be a larger component of the force of gravity acting to accelerate the object down the slope.
What is the solution to a physics inclined plane problem involving an object sliding down a ramp at a certain angle?
The solution to a physics inclined plane problem involving an object sliding down a ramp at a certain angle can be found using trigonometry and Newton's laws of motion. The acceleration of the object can be calculated using the angle of the ramp and the force of gravity acting on the object. The final velocity and distance traveled by the object can also be determined using these calculations.
What is the role of static friction on an inclined plane in preventing an object from sliding down?
Static friction plays a crucial role in preventing an object from sliding down an inclined plane by providing a force that opposes the motion of the object. This frictional force acts parallel to the surface of the inclined plane and increases as the angle of the incline increases, helping to keep the object in place.
What is critical acceleration?
Critical acceleration is the minimum acceleration required to cause an object to start moving or sliding on a surface. It is the point at which the frictional force between the object and the surface is overcome by the applied force.
