To calculate the spring stretch, you need to use Hooke's Law formula which states F = kx, where F is force, k is the spring constant, and x is the displacement/stretch of the spring. Rearranging the formula to solve for x, you get x = F/k. Given force (4500 N) and mass (25 kg), you can calculate the force as F = m*g, where m is the mass and g is the acceleration due to gravity (9.81 m/s^2). Then, you can calculate the spring constant using Hooke's Law formula with the given force and stretch. Subsequently, use this spring constant to determine the stretch of the spring by rearranging the Hooke's Law formula.
The parameters that depend on how resistant a spring is to being compressed or stretched are its stiffness or spring constant, material composition, and geometry (such as coil diameter and number of coils). These factors determine the amount of force required to compress or stretch the spring, as well as how much it will deform under a given load.
A spring scale is typically used to measure the pull of gravity on an object. This tool works by stretching a spring due to the force of gravity acting on the object, and the scale then indicates the weight of the object based on how much the spring has stretched.
A spring loses its elasticity when it is stretched beyond its elastic limit, causing it to deform permanently. This can happen if the spring is subjected to too much force or repeated stress over time. Once a spring has exceeded its elastic limit, it will no longer return to its original shape when the force is removed.
The work done to lift a 25kg sack of cement vertically 4.3m is approximately 1075 Joules. This can be calculated using the formula: Work = Force x Distance, where Force = mass x gravity = 25kg x 9.81 m/s^2 and Distance = 4.3m.
25 kilograms is 55 pounds and 1.85 ounces.
250 g
The parameters that depend on how resistant a spring is to being compressed or stretched are its stiffness or spring constant, material composition, and geometry (such as coil diameter and number of coils). These factors determine the amount of force required to compress or stretch the spring, as well as how much it will deform under a given load.
25kg
about 100 euro
skipping can atleast loss 25kg everday
25kg - 50kg, depends on what type of shark it is.
The amount of water needed to dissolve 25kg of salt depends on the concentration of the salt solution desired. In general, 25kg of salt would require more than 25kg of water to fully dissolve, as salt has a limited solubility in water. Additional water would be needed to create a saturated salt solution.
how much space does 25kg of garnet take up
A spring scale is typically used to measure the pull of gravity on an object. This tool works by stretching a spring due to the force of gravity acting on the object, and the scale then indicates the weight of the object based on how much the spring has stretched.
.47 watt
A spring loses its elasticity when it is stretched beyond its elastic limit, causing it to deform permanently. This can happen if the spring is subjected to too much force or repeated stress over time. Once a spring has exceeded its elastic limit, it will no longer return to its original shape when the force is removed.
The work done to lift a 25kg sack of cement vertically 4.3m is approximately 1075 Joules. This can be calculated using the formula: Work = Force x Distance, where Force = mass x gravity = 25kg x 9.81 m/s^2 and Distance = 4.3m.