We clearly heard you say "one complete cycle every 2 seconds". That means that
the period is 2 seconds. No calculation or arithmetic of any kind is needed.
The weight (or mass) is irrelevant. The period t = sqrt(2*pi*sqrt(l/g) where g is the acceleration due to gravity. so t = 2*pi*sqrt(5/9.8) = 4.49 seconds. Frequency = 1/period = 0.223 Hertz.
A spring-scale.
Spring was used to measure a force by the balance measures the weight of an object by opposing the force of gravity with the force of an extended spring.
The answer will depend on the unstretched length of the spring and its Young's modulus.
A spring force scale measures the downward pull on a spring exerted by a force, usually gravity acting on a weight.
The oscillation of a spring is the motion that the spring makes when disturbed. Imagine holding the end of a spring and hanging a weight to the other end. If you do not disturb the weight, it will stay in a static position. However, when you pull down on the weight and let go, the spring "oscillates" up and down. The spring could also be compressed and released, creating the same effect. The up and down motion, which has a specific velocity and period relating to the spring constant k, is oscillation.
0.5 Hertz.
With the information given, the spring will contract and lift the weight.
when the extension of the spring increases the weight hung on it also increases
A spring stretches because the coiled spring stores potential energy. This energy is released as the spring is stretched and returns to its original shape. Over a period of time, the spring becomes worn and loses the potential energy.
The weight as measured by a spring balance (registers weight by how far a spring is stretched). If the article is in water, etc, the registered weight will be less than the article's true weight.
A spring meter is a meter that measures weight. It is a type of scale which uses a spring.
a balance that measure weight by the tension on a helical spring
A spring balance has a fixed spring at one end and a hook at the other. An object is attached to the hook. The weight of the object extends the spring over a calibrated scale revealing the weight of the object
It depends on spring energy or spring strength
its imposible to lose weight in a few seconds
Weight is always measured on Spring Balance, however Mass is represented by Beam Balance.