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Since mass = weight/gravity Mass = 588 Gravity = 9.8m/s^2 588/9.8 = 60kg 60kg
Yes
Gravity always acts as a pair of forces, not as one single force. The strength of the forces depends on both masses, not just one of them. The forces of gravity attract the diver toward the earth and the earth toward the diver. The forces are equal in both directions. If the diver weighs 150 pounds on earth, then the earth weighs 150 pounds on the diver. The diver accelerates toward the center of the earth with an acceleration equal to (weight)/(diver's mass), and the earth accelerates toward the diver with an acceleration equal to (weight)/(earth's mass). Has that helped, or just confused the issue further ?
The diver and the Earth actually pull on each other with the same force. But with Force = mass x acceleration, rearrange that to: Acceleration = Force / mass. With such a large mass, the Earth is accelerated by a miniscule amount. Compared to the acceleration of the diver, it is not noticed.
Her acceleration is 0.33 meters per second squared.
No. That only tells you the diver's volume.
Since mass = weight/gravity Mass = 588 Gravity = 9.8m/s^2 588/9.8 = 60kg 60kg
Yes
60 Kg. Mass doesn't change on the moon, weight does.
Since mass = weight/gravity Mass = 588 Gravity = 9.8m/s^2 588/9.8 = 60kg 60kg
Gravity always acts as a pair of forces, not as one single force. The strength of the forces depends on both masses, not just one of them. The forces of gravity attract the diver toward the earth and the earth toward the diver. The forces are equal in both directions. If the diver weighs 150 pounds on earth, then the earth weighs 150 pounds on the diver. The diver accelerates toward the center of the earth with an acceleration equal to (weight)/(diver's mass), and the earth accelerates toward the diver with an acceleration equal to (weight)/(earth's mass). Has that helped, or just confused the issue further ?
64.9559kg if the gravity acceleration is 1
The diver and the Earth actually pull on each other with the same force. But with Force = mass x acceleration, rearrange that to: Acceleration = Force / mass. With such a large mass, the Earth is accelerated by a miniscule amount. Compared to the acceleration of the diver, it is not noticed.
factors determining the propensity to move, of your 60kg mass, include its shape, its area, its roughness and so on. On the information given, no answer is possible. But with appropriate choice of parameters, a quite low air pressure will suffice.
fog
your weight would be 120 kg but your mass would be 60 kg
when the voids of soil are just filled by water the soil mass is called saturated and when soil mass is submerged in water means the water level is above the the soil level or soil mass is drowned in water then soil mass is called submerged.