**Step-by-Step Text Solution:**
1. **Understanding the Concept of Force**: A force is any interaction that, when unopposed, will change the motion of an object. Forces can cause objects to move, stop, or change shape.
2. **Definition of Deforming Force**: A deforming force is a specific type of force that is applied to a material body. This force causes a change in the normal position of the molecules within that body.
3. **Effects of Deforming Force**: When a deforming force is applied, it results in a change in the configuration of the material. This can manifest as changes in:
- Length (e.g., stretching or compressing a material)
...
The delay in recovery on removal of the deforming force is called ___
A: Diamond is more elastic than rubber. R: When same deforming force is applied diamond: deforms less than rubber.
A:Iron is more elastic than copper R:Under a given deforming force Iron is deforemed less than copper
Statement I: Smaller drops of liquid resist deforming forces better than the larger drops. Statement II: Excess pressure inside a drop is directly proportional to its surface area.
Statement I: Smaller drops of liquid resist deforming forces better than the larger drops. Statement II: Excess pressure inside a drop is directly proportional to its surface area.
The maximum deforming force upto which a body retains its property of elasticity is called
Define moment of force and its unit.
Define moment of force and state its S.I unit.
Define frictional force and explain it by taking an example. Plot a graph of frictional force against applied force and explain why kinetic friction is lesser than static friction
The internal restoring force acting per unit area of cross-section of the deformed body is called
VMC MODULES ENGLISH-PROPERTIES OF MATTER-JEE Advanced (Archive) Level - 2 (MATRIX MATCH TYPE)
