. A spring can be stretched a distance of 60 cm with an applied
force of 1 N. If an identical spring is connected in parallel with
the first spring, and both are pulled together, how much force will
be required to stretch this parallel combination a distance of 60
cm?
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. A spring can be stretched a distance of 60 cm with an applied force of...
A spring can be stretched a distance of 30 cm with an applied force of 1 N. If the same spring is stretched same distance with 1 N force, how much energy is stored in the spring?
A spring can be stretched a distance of 30 cm with an applied force of 1 N. If the same spring is stretched same distance with 1 N force, how much energy is stored in the spring?
Next, let's consider the effect of linking fibers to the same connecting point on either end. This kind of connection is referred to as "parallel". Consider the same two identical springs each having spring constant k, but this time with both linked at each end to the same object. Equal tension forces T are applied to the objects connecting the springs together. T Www www T e. Again we will consider this combination as a single effective spring. If one...
A force of 4.9 N is required to stretch a certain spring by 1.3 cm. Part A: How far must this spring be stretched for its potential energy to be 0.025 J? Part B: How much stretch is required for the spring potential energy to be 0.075 J?
2. Question from 1.1: Rectangular Coordinatas Use Hooke's Law for springs, which states that the distance a spring is stretched (or compressed) varies directly as the force on the spring An overhead garage door has two springs, one on each side of the door. A force of 11 pounds is required to stretch each spring 1 foot. Because of a pulley system, the springs stretch only one-half the distance the door travels. The door moves a total of 10 feet,...
Table 1: Spring Scale Force Data Force (N) 0 Distance, x (m) ForceAverage (N) A Distance, Ax (m) Work (J) 0 0.060 0.05 0.003 0.120 0.05 0.065 0.05 0.003 0.250 0.10 0.075 0.05 0.004 0.400 0.15 0.065 0.05 0.003 0.530 0.20 0.060 0.05 0.003 0.650 0.25 Part A Post-Lab Questions: 1. Create a Force vs. Displacement (stretch distances) graph. Construct your graph on a computer program such as Microsoft Excel or Google Sheets. 2. Using the result of Analysis Question...
A spring has a natural length of 20 cm. If a 26-N force is required to keep it stretched to a length of 38 cm, how much work W is required to stretch it from 20cm to 29 cm? (Round your answer to two decimal places.) W = ______ J
A spring has a natural length of 22 cm. If a 28-N force is required to keep it stretched to a length of 40 cm, how much work w is required to stretch it from 22 cm to 31 cm2 (Round your answer to two decimal places.) W =
A spring of force constant 235.0 N/m and unstretched length 0.210 m is stretched by two forces, pulling in opposite directions at opposite ends of the spring, that increase to 24.0 N. Part A How long will the spring now be? Express your answer in meters. How much work was required to stretch it that distance? Express your answer in joules.
A spring has a natural length of 10 cm. If a 29-N force is required to keep it stretched to a length of 26 cm, how much work w is required to stretch it from 10 cm to 18 cm? (Round your answer to two decimal places.) W 3 Need Help?