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!
To calculate velocity, you need the displacement of an object (the change in position) and the time it took to make that displacement. Velocity is determined by dividing the displacement by the time taken to achieve that displacement.
Yes, the volume of an object with a regular shape can be determined by using water displacement. By measuring the amount of water displaced when the object is submerged, you can calculate the volume of the object using the principle of displacement.
angular displacement is a vector quantity when theta (angle) is small, otherwise it is scalar.
Displacement is typically added by combining two or more displacements vectorally. This involves adding the components of each displacement in the x, y, and z directions to find the resultant displacement. The magnitude and direction of the resultant displacement can then be determined using trigonometry or vector addition techniques.
No, the time period of oscillation of a spring-mass system does not depend on the displacement from the equilibrium position. The period of oscillation is determined by the mass of the object and the stiffness of the spring, but not the displacement.
False
No, it cant
K, also known as the spring constant, is determined experimentally by measuring the force applied to a spring and the resulting displacement. The formula to calculate K is K = F / x, where F is the force applied and x is the displacement. By plotting the force-displacement data and calculating the slope of the line, the spring constant can be determined.
There isn't a set displacement to horsepower ratio - hence, horsepower can't be determined by displacement alone.
To calculate velocity, you need the displacement of an object (the change in position) and the time it took to make that displacement. Velocity is determined by dividing the displacement by the time taken to achieve that displacement.
Yes, the volume of an object with a regular shape can be determined by using water displacement. By measuring the amount of water displaced when the object is submerged, you can calculate the volume of the object using the principle of displacement.
angular displacement is a vector quantity when theta (angle) is small, otherwise it is scalar.
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.
Displacement is typically added by combining two or more displacements vectorally. This involves adding the components of each displacement in the x, y, and z directions to find the resultant displacement. The magnitude and direction of the resultant displacement can then be determined using trigonometry or vector addition techniques.
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.
No, the time period of oscillation of a spring-mass system does not depend on the displacement from the equilibrium position. The period of oscillation is determined by the mass of the object and the stiffness of the spring, but not the displacement.
Yes, solid volumes can always be determined by the displacement method, as long as the solid is denser than the fluid it is submerged in. The method involves measuring the volume of liquid displaced by the solid when it is fully submerged, which is equal to the volume of the solid.