It is easier to lift a small stone than a big stone because small stones typically weigh less and require less force to lift. Additionally, smaller stones are easier to grip and handle compared to larger stones, allowing for better leverage during lifting.
It is easier to lift a heavy stone under water because the water provides buoyant force that counters the weight of the stone. This buoyant force reduces the effective weight of the stone when submerged in water, making it easier to lift. In air, there is no buoyant force to counteract the weight of the stone, so it feels heavier to lift.
A big rock is heavier to lift than a small stone because it has more mass and thus more gravitational force acting on it. This makes it more difficult to overcome gravity when lifting the big rock compared to the smaller stone.
It is easier to lift an object underwater because the buoyant force exerted by the water helps support the weight of the object. On land, you have to lift the object against the force of gravity without any additional support.
A lever allows you to apply force over a longer distance than directly lifting the block, reducing the amount of force needed to lift it. By using a lever, you can amplify the force applied to lift the block, making it easier to lift.
It is easier to lift a rock in water because water exerts an upward buoyant force on the rock that helps counteract the force of gravity pulling it down. In air, there is less buoyant force acting on the rock, making it harder to lift.
It is easier to lift a heavy stone under water because the water provides buoyant force that counters the weight of the stone. This buoyant force reduces the effective weight of the stone when submerged in water, making it easier to lift. In air, there is no buoyant force to counteract the weight of the stone, so it feels heavier to lift.
A big rock is heavier to lift than a small stone because it has more mass and thus more gravitational force acting on it. This makes it more difficult to overcome gravity when lifting the big rock compared to the smaller stone.
Large stone has more mass compare to a small one. And mass is directly proportional to weight where 'g' is constant for every object on earth. As a result larger stone has more weight than that of smaller. That's why it is difficult to lift larger stone on the surface of the earth but easier to lift a smaller one.
The answer depends on the size of the stone. It is probably easier to drag a small stone. A large stone is much harder to drag. You can kick it easily. Kicking it may not move it at all, but the effectiveness of kicking is not relevant to the question.
as the gravity lift yous
It is easier to lift an object underwater because the buoyant force exerted by the water helps support the weight of the object. On land, you have to lift the object against the force of gravity without any additional support.
It is easier to lift heavy objects on the Moon than on Earth because the Moon's gravitational pull is only about one-sixth that of Earth's. This reduced gravity means that objects weigh significantly less on the Moon, making them easier to lift and move. Consequently, the same force exerted to lift an object results in a greater acceleration on the Moon compared to Earth.
It is easier because the legs carry the whole weight of the body and if you lift it for a longer time your balance will go.
Well,the small car weighs less then the dump truck,correct? It's similar to, "Why is it easier to lift a feather then a 20 pound weight?". And,since the dump truck is bigger,it gains more speed from its weight,and once it gets going,it's hard to stop.
A lever allows you to apply force over a longer distance than directly lifting the block, reducing the amount of force needed to lift it. By using a lever, you can amplify the force applied to lift the block, making it easier to lift.
no, large apples bruise easier. (:
no since both weigh the same amount they will require the same amount of work and energy to lift so they would be equally difficult to lift.