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inertia
Without knowing the second measurement in millimeters, this can't be answered.
10cm
A virtual erect image of the same size of the object is formed.
Infinite.
stop cheating on gizmos, fool. :)The Answer: The mass of the water in the graduated cylinder is equal to the mass of the object.lol
The volume of the object placed in the water is 23 ml. This can be calculated by subtracting the initial water level (30 ml) from the final water level (53 ml).
[object Object]
Yes, salt increases the density of water, which in turn increases buoyancy. When an object is placed in saltwater, it experiences a greater buoyant force compared to freshwater because of the higher density of the saltwater.
One way to calculate the volume of an irregularly shaped object is by using the water displacement method. Submerge the object in a known volume of water and measure the change in volume to determine the object's volume.
Height affects the potential energy of an object through gravitational force. The higher the object is lifted, the more potential energy it has due to the increased distance it can fall under gravity. The potential energy of an object is directly proportional to its height above the reference point.
[object Object]
An object is usually placed on a glass slide or a petri dish when using a flat microscope platform for viewing. These platforms provide a stable surface for the sample to be securely positioned under the microscope lens for observation.
Salt increases the density of water, making it more buoyant. When an object is placed in saltwater, its overall density will need to be greater than that of the saltwater in order to float, causing it to either sink or float differently than in freshwater.
I placed the object on the table, but it was gone when I returned for it.
An object will float if it is less dense than the liquid it is placed in. An object will sink if it is more dense than the liquid it is placed in.
An object will float if it is less dense than the liquid it is placed in. An object will sink if it is more dense than the liquid it is placed in.