When the springs were placed on either side of the mass (vertically), is this the same as two springs in series? If not, Please explain and propose a model for how the stiffness is combined.
When the springs were placed on either side of the mass (vertically), is this the same...
A particle P of mass m kg is attached to two fixed points A and B by two identical model springs, each of stiffness k and natural length lo- The point A is at a height 1/o above the point B. The particle is free to oscillate vertically under gravity. The stiffness of each spring is given by k = 4mg/10. The horizontal level passing through the fixed point A is taken as the datum for the gravitational potential energy....
when two springs of arbitrary stiffness values are in parallel, the force developed in them, as a result of a displacement, is the same? True or false I believe this is true Please explain with an example
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...
Different mass crates are placed on top of springs of uncompressed length L_0 and stiffness k. The crates are released and the springs compress to a length L before bringing the crates back up to their original positions. Rank the time required for the crates to return to their initial positions from largest to smallest. 1 ) k= 10 n/m L= 5 cm L_0= 10 cm 2) k= 5 n/m L= 10 cm L_0= 20 cm 3) k= 20 n/m...
Different mass crates are placed on top of springs of uncompressed length L0 and stiffness k. (Figure 1) The crates are released and the springs compress to a length L before bringing the crates back up to their original positions. Rank the time required for the crates to return to their initial positions from largest to smallest. Rank from largest to smallest. To rank items as equivalent, overlap them. We were unable to transcribe this imageResetHelp 5N/mk 10 N/m L...
A uniform cube of side L is placed on the floor. Another cube of the same material and of side L/2 is placed on top of the large one. How far fom the floor is the center of mass of the system? The answer is 21L/36, how was this derived?
1. Two neutral spheres are attached to two identical springs and separated by 8.0 cm. When a charge of +2.5 x 10-6 C is placed on each sphere, the distance between the spheres doubles. The springs are then oriented vertically and a 560 g mass is placed on them. What compression would these springs experience? Assume both springs would share the force of the mass equally. 2. In a physics experiment designed to analyze collisions between electrons and π0 mesons...
Two springs, with force constants k1=170N/m and k2=240N/m, are connected in series. When a mass m=0.55kg is attached to the springs, what is the amount of stretch, x?
A spring is hung vertically from a fixed support. When an object of mass m is attached to the end of the spring, it stretches by a distance y. When an object of mass of 2m is hung from the spring, it stretches by a distance 2y. A second, identical spring is then attached to the free end of the first spring. If the object of mass 2m is attached to the bottom of the second spring, how far will...
1) Current flows vertically through a plate of materials. Two leads are attached to the side of the plate (V in figure). The device is then placed in a magnet flux density that is normal to the surface (BzB in figure) (a) Why is VIFO for B-0. (b) Explain why the sign of Vu measured for finite B determines the sign of charges carrying the current. (c) Explain why VH increases linearly with B. (d) Explain how the magnitude of...