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You should first use the lowest power setting of a microscope to find an object and then center it within the viewing area. Then, when you switch to the next higher magnification, your target should still be close to the center and easier to find and focus on.
It is always different depending on the object. For example a female humans' center of gravity is in the hip. as a male humans' center of gravity is in the chest. But once you have found the center of gravity in an object the center of gravity should be the same in every object like it.
the 2 things you should describe about a force that acts on an object is the size and direction
For an object in motion, a force applied in the direction of the movement of the object would propel it further along that direction. The force should be equal or more than the momentum of the object. If a force in applied against the moving object in a direction opposite to the movement of the object, the velocity of the moving object is hampered. How much this decrease in velocity would occur would depend on the amount of the opposing force. If a sufficiently large force in an opposing direction is applied, it can even stop the object. If the force is not along or opposite the movement of the object, the force can change the direction of the object. If the force that was causing the movement of the object is removed, the object slows down, until it finally stops. For an object at rest, a sufficient amount of force can set the object in motion.
Obtain a irregular 2-dimensional object that is easily handled. A piece of plywood would do nicely.Hang the object from various locations about the perimeter and draw a vertical line from the point of suspension to the opposite side of the object.Repeat this many times and you should note that all the lines intersect at the same point. This will be the center of gravity.Hang the object from the center of gravity, if you are using plywood a hook screw would do nicely. If you have the center of gravity then the object should hang horizontally.
You should first use the lowest power setting of a microscope to find an object and then center it within the viewing area. Then, when you switch to the next higher magnification, your target should still be close to the center and easier to find and focus on.
It will bring an object into focus..
So that you are looking at the details of the object and not the light.
It is always different depending on the object. For example a female humans' center of gravity is in the hip. as a male humans' center of gravity is in the chest. But once you have found the center of gravity in an object the center of gravity should be the same in every object like it.
The object on the viewing stage is close to the lens of a microscope. Racking downward risks the lens touching the object and damaging either the object itself or the lens. Before moving the lens down, make sure you can see the lens and the object from the side of the microscope to void the two touching each other.
the 2 things you should describe about a force that acts on an object is the size and direction
Everyhting you see in the microscope and especcialy what you are supposed to see. You should make a note of what you are looking at and which magnitute you are using to give the viewer sence of the actual size of the object.
At least 10 centimeters. Preferrably keep it near the center, so its very hard to fall.
For an object in motion, a force applied in the direction of the movement of the object would propel it further along that direction. The force should be equal or more than the momentum of the object. If a force in applied against the moving object in a direction opposite to the movement of the object, the velocity of the moving object is hampered. How much this decrease in velocity would occur would depend on the amount of the opposing force. If a sufficiently large force in an opposing direction is applied, it can even stop the object. If the force is not along or opposite the movement of the object, the force can change the direction of the object. If the force that was causing the movement of the object is removed, the object slows down, until it finally stops. For an object at rest, a sufficient amount of force can set the object in motion.
Simply because the fine focus moves too quick to get the object focused. Chances are you will miss the focus point.
Obtain a irregular 2-dimensional object that is easily handled. A piece of plywood would do nicely.Hang the object from various locations about the perimeter and draw a vertical line from the point of suspension to the opposite side of the object.Repeat this many times and you should note that all the lines intersect at the same point. This will be the center of gravity.Hang the object from the center of gravity, if you are using plywood a hook screw would do nicely. If you have the center of gravity then the object should hang horizontally.
when you carrying a microscope you should use your hands