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∙ 14y agoIn the spring elasticity experiment, the mass of the spring is often neglected because the mass of the spring itself is usually negligible compared to the masses being hung on it. Additionally, the focus of the experiment is typically on the relationship between the force applied to the spring and the resulting extension, rather than the mass of the spring.
Some important assumptions made in the helical spring experiment include: linear elasticity, uniform material properties throughout the spring, neglecting the effects of stress concentration at the ends of the spring, neglecting friction between the coils, and assuming that the load is applied along the axis of the spring.
There are many possible errors in a Hooke's law experiment. Examples of some common errors are: Not reading the ruler correctly when measuring the extension of the spring. Not starting the timer at exactly the same time as when the weight is added to the spring. Not adding the weights in a smooth, continuous motion. Not adding the same amount of weight to each spring. The spring could be damaged or broken, which would affect the results. Other sources of error could include: The spring could be old and not have the same elasticity as a new spring. The spring could be of a different material than what is expected, which would affect the results. The experiment could be done in a place with a lot of vibration, which would affect the results.
Wind/air currents which make spring to oscillate. Measuring extension when spring is oscillating/has not yet stabilized. Including the length of the hooks to the extension of the helical coils of spring.
The spring constant (k) determines the stiffness of the spring and should ideally remain constant for a specific spring. If you are obtaining different k values for the same spring using different masses, there may be errors in your measurements or variations in the spring itself such as deformation or wear over time. It is important to ensure that your measuring equipment is accurate and that the spring is not damaged.
Not necessarily. The amount of stretch in a spring depends on its elasticity and the force applied to it, rather than its length. A long spring may stretch more than a short one if it is made of the same material and subjected to the same force, but there are other factors that can affect stretching as well.
Some important assumptions made in the helical spring experiment include: linear elasticity, uniform material properties throughout the spring, neglecting the effects of stress concentration at the ends of the spring, neglecting friction between the coils, and assuming that the load is applied along the axis of the spring.
spring scale
Not necessarily, though the beginning of Spring is usually quite rainy.
When designing and constructing a spring-fed water tap, the specific location of the spring must be taken into consideration. Any plan for tapping will include a drain for surface water, a spring eye location, an overflow, a supply pipe, and a drain.
There are many possible errors in a Hooke's law experiment. Examples of some common errors are: Not reading the ruler correctly when measuring the extension of the spring. Not starting the timer at exactly the same time as when the weight is added to the spring. Not adding the weights in a smooth, continuous motion. Not adding the same amount of weight to each spring. The spring could be damaged or broken, which would affect the results. Other sources of error could include: The spring could be old and not have the same elasticity as a new spring. The spring could be of a different material than what is expected, which would affect the results. The experiment could be done in a place with a lot of vibration, which would affect the results.
The spring in the springing spring doesn't move because of the electrical current. In the book it tells you to use a 6-v Battery. To actually make the spring move you would need to use a car battery. With a car battery within three seconds the wire would melt.
When you hang a weight on the end of a spring, the spring extends (lengthens). He found that the amount of the extension is proportional to the added weight. This is now called Hooke's Law.
Not necessarily Summer is when it is most likely to be rainy. So spring can be rainy Fall/Autumnn can be quite windy. It blows leaves of trees and other things like that
Hooke's law of elasticity is an approximation that states that the extension of a spring is in direct proportion with the load applied to it.
Spring literally means to act suddenly or swiftly. Extensive research shows that there isn't really an origin to the phrase. Since the word spring has this meaning when used as a verb it's grammatically correct and isn't necessarily and idiom.
Wind/air currents which make spring to oscillate. Measuring extension when spring is oscillating/has not yet stabilized. Including the length of the hooks to the extension of the helical coils of spring.
The spring constant (k) determines the stiffness of the spring and should ideally remain constant for a specific spring. If you are obtaining different k values for the same spring using different masses, there may be errors in your measurements or variations in the spring itself such as deformation or wear over time. It is important to ensure that your measuring equipment is accurate and that the spring is not damaged.