Here by momentum conservation we can write
so here from above equation we can say the final speed after collision depends upon the mass of two objects
here if we change the mass of two colliding object then the final speed will change
for example
If we take two objects of same masses then after collision the speed of two objects will interchange
While if the two colliding object are such that one of the object is very heavy then after collision there is no effect on its velocity.
So if mass is changed then the speed of the object after collision will change
the speed of object after collision is given by
So by above equations we can show the dependency of two speed on mass
It’s North of the equator
Answer:
194,22g/mol
Explanation:
8*12,01+10*1,01+4*14,01+2*16=194,22g/mol
It will take the object <em>5.306 seconds </em>to come to rest.
<u>Given the following data:</u>
- Initial velocity = 52 m/s
- Acceleration = -9.8
To find how much time it will take the object to come to rest, we would use the first equation of motion;
Mathematically, the first equation of motion is calculated by using the formula;
<em>Time, t </em><em>=</em><em> 5.306 seconds.</em>
Therefore, it will take the object <em>5.306 seconds </em>to come to rest.
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<u>Note</u>: The final velocity (V) of the object would be zero (0) m/s when the object comes to rest.
Read more: brainly.com/question/8898885