![A rod of uniform cross sectional area A and length L has a weight W . It is suspended vertically from a fixed support vertically from a fixed support. If Young's modulus A rod of uniform cross sectional area A and length L has a weight W . It is suspended vertically from a fixed support vertically from a fixed support. If Young's modulus](https://toppr-doubts-media.s3.amazonaws.com/images/1979715/8abf7904-5a3c-4ad0-9953-489bec17fb91.jpg)
A rod of uniform cross sectional area A and length L has a weight W . It is suspended vertically from a fixed support vertically from a fixed support. If Young's modulus
In Young's modulus, is the cross-sectional area assumed to be the original cross-sectional area? As the cross-sectional area becomes smaller as a material is stretched, how will this impact the equation? -
In Young's modulus, is the cross-sectional area assumed to be the original cross-sectional area? As the cross-sectional area becomes smaller as a material is stretched, how will this impact the equation? -
![If Y is the Young's modulus of a wire of cross sectional area A, then the force required to - YouTube If Y is the Young's modulus of a wire of cross sectional area A, then the force required to - YouTube](https://i.ytimg.com/vi/riM_omUKOI4/maxresdefault.jpg)
If Y is the Young's modulus of a wire of cross sectional area A, then the force required to - YouTube
![Correlation between cross sectional area and elastic modulus of single... | Download Scientific Diagram Correlation between cross sectional area and elastic modulus of single... | Download Scientific Diagram](https://www.researchgate.net/publication/354655125/figure/fig3/AS:1069259216134145@1631942671375/Correlation-between-cross-sectional-area-and-elastic-modulus-of-single-fibers-from.png)
Correlation between cross sectional area and elastic modulus of single... | Download Scientific Diagram
![A rod of length L having uniform cross section area A is subjected to a tensile force P as shown in the figure below. If the Young's modulus of the material varies A rod of length L having uniform cross section area A is subjected to a tensile force P as shown in the figure below. If the Young's modulus of the material varies](https://df0b18phdhzpx.cloudfront.net/ckeditor_assets/pictures/1191067/original_1.14.png)
A rod of length L having uniform cross section area A is subjected to a tensile force P as shown in the figure below. If the Young's modulus of the material varies
![A unniform elastic rod of cross section area A, natural length L and Youngs modulus Y is placed on a smooth horizontal surface. Now two horizontal forces (of magnitude F and 3F) A unniform elastic rod of cross section area A, natural length L and Youngs modulus Y is placed on a smooth horizontal surface. Now two horizontal forces (of magnitude F and 3F)](https://dwes9vv9u0550.cloudfront.net/images/4331944/c85a862e-d98b-42a9-9340-440bc0c50e00.jpg)
A unniform elastic rod of cross section area A, natural length L and Youngs modulus Y is placed on a smooth horizontal surface. Now two horizontal forces (of magnitude F and 3F)
![The adjacent graph shows the extension Deltal of a wire of length 1m, suspended from the f top of a roof at one end and with a loaf w connected to the The adjacent graph shows the extension Deltal of a wire of length 1m, suspended from the f top of a roof at one end and with a loaf w connected to the](https://d10lpgp6xz60nq.cloudfront.net/physics_images/BIT_PHY_C12_E01_017_Q01.png)
The adjacent graph shows the extension Deltal of a wire of length 1m, suspended from the f top of a roof at one end and with a loaf w connected to the
Young's modulus as a function of the device cross-sectional area. Note... | Download Scientific Diagram
![The product of Young\'s modulus of the material of the wire with its cross sectional area is equal - YouTube The product of Young\'s modulus of the material of the wire with its cross sectional area is equal - YouTube](https://i.ytimg.com/vi/QVnbeOWeIOs/mqdefault.jpg)
The product of Young\'s modulus of the material of the wire with its cross sectional area is equal - YouTube
![Two wires of equal length and cross-section area suspended as shown in figure. Their Young\'s - YouTube Two wires of equal length and cross-section area suspended as shown in figure. Their Young\'s - YouTube](https://i.ytimg.com/vi/r-ByWqVylhI/maxresdefault.jpg?sqp=-oaymwEmCIAKENAF8quKqQMa8AEB-AH-CYAC0AWKAgwIABABGGUgZShlMA8=&rs=AOn4CLABGV-kOvPDFbsXO0zi-uTDZ0-aqQ)
Two wires of equal length and cross-section area suspended as shown in figure. Their Young\'s - YouTube
![A steel wire of length 4.7 m and cross - sectional area 3.0 × 10^-5 m^2 stretches by the same amount as a copper wire of length 3.5 m and cross - A steel wire of length 4.7 m and cross - sectional area 3.0 × 10^-5 m^2 stretches by the same amount as a copper wire of length 3.5 m and cross -](https://dwes9vv9u0550.cloudfront.net/images/2853954/9fac5884-ef7f-4162-a9e3-726c5c6f36e9.jpg)
A steel wire of length 4.7 m and cross - sectional area 3.0 × 10^-5 m^2 stretches by the same amount as a copper wire of length 3.5 m and cross -
![A smooth uniform, string of natural length l, cross-sectional area A and Young's modulus Y is pulled along its length by a force F on a horizontal surface. Find the elastic potential A smooth uniform, string of natural length l, cross-sectional area A and Young's modulus Y is pulled along its length by a force F on a horizontal surface. Find the elastic potential](https://d10lpgp6xz60nq.cloudfront.net/web-thumb/11302312_web.png)
A smooth uniform, string of natural length l, cross-sectional area A and Young's modulus Y is pulled along its length by a force F on a horizontal surface. Find the elastic potential
![A uniform slender rod of length L , cross - sectional area A and Young's modulus Y is acted upon by the forces shown in the figure. The elongation of the rod is: A uniform slender rod of length L , cross - sectional area A and Young's modulus Y is acted upon by the forces shown in the figure. The elongation of the rod is:](https://dwes9vv9u0550.cloudfront.net/images/8977219/bed302f3-a09b-467e-8d45-fe9d2df03966.jpg)
A uniform slender rod of length L , cross - sectional area A and Young's modulus Y is acted upon by the forces shown in the figure. The elongation of the rod is:
![a) The elastic (Young's) modulus scales with the ratio of the force F... | Download Scientific Diagram a) The elastic (Young's) modulus scales with the ratio of the force F... | Download Scientific Diagram](https://www.researchgate.net/publication/275605108/figure/fig1/AS:645757384286208@1530971966046/a-The-elastic-Youngs-modulus-scales-with-the-ratio-of-the-force-F-to-the-extension-d.png)
a) The elastic (Young's) modulus scales with the ratio of the force F... | Download Scientific Diagram
![Body mass plotted against Young's modulus and cross-sectional area of... | Download Scientific Diagram Body mass plotted against Young's modulus and cross-sectional area of... | Download Scientific Diagram](https://www.researchgate.net/publication/270577233/figure/fig3/AS:365363435982848@1464120839193/Body-mass-plotted-against-Youngs-modulus-and-cross-sectional-area-of-the-patellar-and.png)