An object's position changes over time due to its velocity, which is the rate of change in position with respect to time. By integrating the velocity over time, we can determine the position of the object. This relationship is described by the equation: position = initial position + velocity * time.
As long as angular amplitude is kept small, the period does not depend on the angular amplitude of the oscillation. It is simply dependent on the weight. It should be noted that to some extent period actually does depend on the angular amplitude and if it gets too large, the effect will become noticeable.
No, the time period of oscillation does not depend on the displacement from the equilibrium position. The time period is only affected by the mass and stiffness of the system and is constant for a given system. The amplitude of oscillation does affect the maximum displacement from the equilibrium position.
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.
The length and position of a shadow depend on the angle of the light source, the distance between the object and the surface the shadow falls on, and the height of the object casting the shadow.
The y-intercept of a position and time graph represents the position of the object at time zero. It indicates the initial position of the object when the time is zero.
As long as angular amplitude is kept small, the period does not depend on the angular amplitude of the oscillation. It is simply dependent on the weight. It should be noted that to some extent period actually does depend on the angular amplitude and if it gets too large, the effect will become noticeable.
yes, due to heeling.
That will depend on where in the world you are and what time of the year it is.That will depend on where in the world you are and what time of the year it is.That will depend on where in the world you are and what time of the year it is.That will depend on where in the world you are and what time of the year it is.That will depend on where in the world you are and what time of the year it is.That will depend on where in the world you are and what time of the year it is.That will depend on where in the world you are and what time of the year it is.That will depend on where in the world you are and what time of the year it is.That will depend on where in the world you are and what time of the year it is.That will depend on where in the world you are and what time of the year it is.That will depend on where in the world you are and what time of the year it is.
No, the time period of oscillation does not depend on the displacement from the equilibrium position. The time period is only affected by the mass and stiffness of the system and is constant for a given system. The amplitude of oscillation does affect the maximum displacement from the equilibrium position.
NO. A day is always 24 hours. However, the time that an area has sunlight or night time does depend on its position on earth.
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.
This would depend on the type of position. No job positions can be posted on this site.
it depend on you position on earth
It depend in what position did you apply
Very much so in many ways. Time is measured to determine distance traveled and fuel on board. The GPS system uses time to determine the position of the target. Time is absolutely vital.
The position a person is interested in will depend on the job. A person could want the manager position in a grocery store or the head chef position in a restaurant.
this would depend on Area and position