The period will increase as the mass increases. More mass-with the same spring-will mean a larger period. What else determines the period? How strong or weak the spring is will certainly affect the motion. A stronger spring-with a larger value of k-will move the same mass more quickly for a smaller period.
How does the spring constant affect the period?
Period of a Mass on a Spring. The equation can be interpreted to mean that more massive objects will vibrate with a longer period. And springs with a greater spring constant (stiffer springs) have a smaller period; masses attached to these springs take less time to complete a cycle. Click to see full answer.
What happens to the spring constant if the mass is doubled?
Jan 01, 2020 · How does spring constant affect period? A stronger spring-with a larger value of k-will move the same mass more quickly for a smaller period. As the spring constant k increases, the period decreases. For a given mass, that means a greater acceleration so the mass will move faster and, therefore, complete its motion quicker or in a shorter period. Click to see full answer.
What determines the period of a spring?
See the answer See the answer done loading. how will the period change if you increase the mass but keep the spring constant the same ? Best Answer. This is the best answer based on feedback and ratings. You can figure this out theoretically …. View the full answer. Previous question Next question.
How does K affect the period of a spring?
Nov 15, 2008 · You can figure this out theoretically by the equation T = 2π*sqrt(m/k). When you increase the m (mass) value, T (period) also increases. When you decrease the m …
How does increasing the mass affect the period of the spring?
Their greater inertia means that it takes more time to complete a cycle. And springs with a greater spring constant (stiffer springs) have a smaller period; masses attached to these springs take less time to complete a cycle.
How does the period change with increasing mass?
Mass on a Spring A stiffer spring with a constant mass decreases the period of oscillation. Increasing the mass increases the period of oscillation.Dec 13, 2020
How does mass affect the period of a pendulum?
The mass on a pendulum does not affect the swing because force and mass are proportional and when the mass increases so does the force. As the force increases so does the acceleration and along with gravity are the factors that affect the pendulum swing. Therefore, the mass does not affect the period of the pendulum.Feb 12, 2020
What happens to the period of a spring if the mass is doubled?
Thus, if the mass is doubled, the period increases by a factor of √2. A mass hanging from a spring is pulled down from its equilibrium position through a distance A and then released at t = 0.
Does the period depend on the mass?
The period of a pendulum does not depend on the mass of the ball, but only on the length of the string. Two pendula with different masses but the same length will have the same period. Two pendula with different lengths will different periods; the pendulum with the longer string will have the longer period.Jun 18, 2018
Why does the period of the pendulum not depend on the mass but the period of a mass on a spring does depend on the mass?
The reason the simple pendulum has no dependence on mass is because the mass gets to "count" for two different things. (The same thing happens in freefall motion, where all things of all weights fall at the same rate.) Mass counts for inertia, or the "m" in "F=ma".
How do you increase the period of a pendulum?
1. Period of Pendulum will increase with the length of pendulum. 2. Period of pendulum will decrease by increasing the bob weight.
Why does mass not affect the frequency of a pendulum?
The mass of the bob does not affect the period of a pendulum because (as Galileo discovered and Newton explained), the mass of the bob is being accelerated toward the ground at a constant rate — the gravitational constant, g.
What happens when the spring constant increases?
A stronger spring-with a larger value of k-will move the same mass more quickly for a smaller period. As the spring constant k increases, the period decreases. For a given mass, that means a greater acceleration so the mass will move faster and, therefore, complete its motion quicker or in a shorter period. How does the period of ...
What is the period of an oscillation?
The period of the oscillations is the time it takes an object to complete one oscillation. Linear frequency is the number of the oscillations per one second. The period is inversely proportional to the linear frequency. The unit of the period is a second (s) and the unit of the frequency is Hertz or s–1 (Hz = 1/s).
What is the time taken by an oscillating object to complete one cycle called?
The time taken by an oscillating object to complete one cycle is called Period . The period of oscillating object depends upon the mass and the spring constant. The spring force is always equal and opposite to the motion. Here, is the mass, is the acceleration, is the spring constant, and is the spring extension.
Does gravity affect period?
But this does not affect the period. Similar Asks.
