imagine you are in skardu in gilgit baltistan write a letter to your friend about how you got there the landscape the weather and find out the plants and animals and the jobs people do
Hey aditi ~
na sorry riya~
Answers
Answer:
To calculate distance, the direction is not considered. To calculate displacement, the direction is taken into consideration. Distance is a scalar quantity as it only depends upon the magnitude and not the direction. Displacement is a vector quantity as it depends upon both magnitude and direction.
ᴍᴇᴇᴛ ʜᴇ ʜɪ ɴᴀʜɪ ᴀɴᴅ ᴅᴡɴᴋᴏᴀᴅ ɴʜɪ ʜᴏ sᴋᴛᴀ sᴘᴀᴄᴇ ɴʜɪ ʜᴇ ᴀᴘᴘ ʟᴏɢɪɴ ᴍᴀʀᴋᴇ ᴀᴊᴀᴏ ɴᴀ.
Explanation:
We now move from consideration of forces that affect the motion of an object (such as friction and drag) to those that affect an object’s shape. If a bulldozer pushes a car into a wall, the car will not move but it will noticeably change shape. A change in shape due to the application of a force is a deformation. Even very small forces are known to cause some deformation. For small deformations, two important characteristics are observed. First, the object returns to its original shape when the force is removed—that is, the deformation is elastic for small deformations. Second, the size of the deformation is proportional to the force—that is, for small deformations, Hooke’s law is obeyed. In equation form, Hooke’s law is given by
F = kΔL,
where ΔL is the amount of deformation (the change in length, for example) produced by the force F, and k is a proportionality constant that depends on the shape and composition of the object and the direction of the force. Note that this force is a function of the deformation ΔL—it is not constant as a kinetic friction force is. Rearranging this to
\displaystyle\Delta{L}=\frac{F}{k}ΔL=
k
F
makes it clear that the deformation is proportional to the applied force. Figure 1 shows the Hooke’s law relationship between the extension ΔL of a spring or of a human bone. For metals or springs, the straight line region in which Hooke’s law pertains is much larger. Bones are brittle and the elastic region is small and the fracture abrupt. Eventually a large enough stress to the material will cause it to break or fracture.
