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The amount of separation between two horizontal surface/Plane
There are two forces on the bomb when it is dropped; horizontal, and vertical. The vertical force is gravity, and the horizontal force is the velocity of the plane when the bomb is dropped. In order to determine how far away the bomb will drop from the initial point of release, it is necessary to know the height that the plane is at, and the velocity of the plane, which is also the initial horizontal velocity of the bomb (it is constant, neglecting air resistence.)
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image form by plane mirror are virtual,upright,left- right reversed,the same distance from the mirror as the object's distance,and the same size as the object.............that's all
a room
If an object is rolling along a plane horizontal surface with no other forces acting on it, then rolled distance is directly proportional to the time taken.If an object is rolling along a plane horizontal surface with no other forces acting on it, then rolled distance is directly proportional to the time taken.If an object is rolling along a plane horizontal surface with no other forces acting on it, then rolled distance is directly proportional to the time taken.If an object is rolling along a plane horizontal surface with no other forces acting on it, then rolled distance is directly proportional to the time taken.
.50g
The amount of separation between two horizontal surface/Plane
The distance of the object from the mirror line should equal the distance of the image from the mirror line.
There are two forces on the bomb when it is dropped; horizontal, and vertical. The vertical force is gravity, and the horizontal force is the velocity of the plane when the bomb is dropped. In order to determine how far away the bomb will drop from the initial point of release, it is necessary to know the height that the plane is at, and the velocity of the plane, which is also the initial horizontal velocity of the bomb (it is constant, neglecting air resistence.)
What's the question?
image form by plane mirror are virtual,upright,left- right reversed,the same distance from the mirror as the object's distance,and the same size as the object.............that's all
single plane method:- let A and B be the two chosen instument station Q be the elevate object whose elevation is required A Band Q lies in the same vertical plane double plane method:- let A and B be the not in the same verticale plane as that of elevayed object Q they are in two vertical planes
The graph is called a corrdinate plane. The horizontal is called the x-axis. The verticle is the y-axis.
The height of collimation is the height of the line of sight. It is the vertical distance of the horizontal plane through a telescope.
a room
The disadvantage is you must move the object a greater distance