Liniar Displacement:
Measure the start position (X1) and then the end position (X2), then subtract: X2-X1 = the displacement of the object in a straight line.
Volume Displacement:
Displacement (V) and mass (m) of a meterial is related by the density (p). given by
p = m/V this means if you want to determane the volume a certain meterial will displace you need the density and the mass and the other way around if you want to determane the density (whitch is a constant for that meterial) you need only measure the mass of that sample and the displacement.
So to practically measure the displacement of volume you can take the sample and insert it into a known volume (like a half filled measuring beaker) record the volume before, and after the sample was inserted and calculate the difference (use a liquid, and make sure the sample is insoluble in that liquid).
Sterkte!
Yes, it certainly could.
Angular displacement is a vector quantity because it has both magnitude and direction. The direction of angular displacement is determined by the axis of rotation and follows the right-hand rule, while the magnitude is given by the angle of rotation. As a vector, angular displacement can be added, subtracted, and resolved into components, making it useful in calculations that involve rotational motion.
the distance is obtained by knowing the perimeter of the circle in question, this Canberra determined using the rule for circle circunfrence. As for the displacement it is the shortest distance between the starting pint of travel and ending. If for example the vehicle traveled around the whole circunfrence of a circle it will have a displacement of zero, as for it's distance it will be the length or circunfrence of the circle.
The difference between the final and the initial position of an object is called displacement. Unit of displacement is metre . Displacement <= Distance always.
To get displacement from a displacement graph, just look at the Y- axis for the particular time (displacement versus time). For the displacement graph, the Y-axis is usually displacement.
False
No, it cant
True
There isn't a set displacement to horsepower ratio - hence, horsepower can't be determined by displacement alone.
Cubic inch or cubic centimeters are used as a measurement of the total combustion area displacement of the vehicles engine.Displacement is how engine size is determined.
There isn't a formula for equating horsepower to displacement. That'll be determined by the injectors, the displacement, stroke, and compression of the pistons, and other factors.
Yes, it certainly could.
They are established studying the reaction of metals with water and acids and also single displacement reactions.
The simplest answer is the velocity of an object at a given time. It is also possible to determine the acceleration and displacement - but only in the same direction as the velocity. No information on motion in a transverse direction can be determined.
No. Loudness is not determined by the wave's frequency, but by its amplitude. That's how much the particles of the object move (how large is the displacement).
Angular displacement is a vector quantity because it has both magnitude and direction. The direction of angular displacement is determined by the axis of rotation and follows the right-hand rule, while the magnitude is given by the angle of rotation. As a vector, angular displacement can be added, subtracted, and resolved into components, making it useful in calculations that involve rotational motion.
The volume of an object can be determined by the displacement of water. By dropping the object into a measuring container of water, where the volume of the water is known, the object's volume can then be calculated by subtracting the volume of the water by the volume of the water and object combined.