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Explanation:
In a scenario without friction, if you have a situation involving two objects connected by a string or rope, such as in Atwood's machine, where one object is heavier (a1) and the other is lighter (a2), and you want to find the acceleration (a2) of the lighter object, you can use the following formula:
a2 = (2 * a1 * m1) / (m1 + m2)
Where:
- a2 is the acceleration of the lighter object (in this case, the object with mass m2).
- a1 is the acceleration of the heavier object (in this case, the object with mass m1).
- m1 is the mass of the heavier object.
- m2 is the mass of the lighter object.
Without knowing the masses of the objects (m1 and m2), it's not possible to calculate the value of a2. You would need the mass of each object to use this formula to find a2.
Answers & Comments
Verified answer
Answer:
I hope it is help full to you please mark me brainlist please please please please please I request to you please mark me brainlist please please please please please please please please please please please please please please please please please please please please please please please please please
Explanation:
In a scenario without friction, if you have a situation involving two objects connected by a string or rope, such as in Atwood's machine, where one object is heavier (a1) and the other is lighter (a2), and you want to find the acceleration (a2) of the lighter object, you can use the following formula:
a2 = (2 * a1 * m1) / (m1 + m2)
Where:
- a2 is the acceleration of the lighter object (in this case, the object with mass m2).
- a1 is the acceleration of the heavier object (in this case, the object with mass m1).
- m1 is the mass of the heavier object.
- m2 is the mass of the lighter object.
Without knowing the masses of the objects (m1 and m2), it's not possible to calculate the value of a2. You would need the mass of each object to use this formula to find a2.
Answer:
by sublimation
Explanation: