In a way, yes, however there's more to it. Everything is being affected by gravity, but for an object to be at rest, there is an equal force counteracting it. So while the cards are in your hand, the force provided by your muscles stop the cards (and your body) from collapsing under the pull of gravity. If you let go of the cards, there is no force counteracting the gravitational pull - the pull of gravity is now higher, the cards will fall to the ground, whereupon there is now an equal force pushing up on the cards, and they stop.
True - apex =)
True - apex =)
It falls to the ground.
No, gravity does not do work on the deck of cards when it slips out of your hand and falls to the ground. Work is done when a force causes a displacement, and in this case, gravity only affects the deck of cards due to its weight, pulling it downward without causing displacement.
The question is meaningless
The gravity value is always positive when an object falls to the ground. Gravity is an attractive force that pulls objects toward the center of the Earth, causing them to accelerate downwards.
Gravity is the force that pulls you to the ground. Example: When we throw an apple it falls down because of gravity.
When something falls from somwhere its because of gravity and gravity has an exact speed so everything falls at the same rate
A coconut falls to the ground due to the force of gravity pulling it downwards. When the coconut reaches a point where the force of gravity is greater than the support it has from the tree, it detaches and falls.
it is the force that pulls us to the ground. example: when you throw an apple it falls down because of gravity.
Its weight causes it to accelerate. That is in simple terms. When an object falls to the ground, it still has mass, it still has weight, and it has constant forces acting upon it, such as gravity.
Gravity is a force that pulls objects towards the Earth. When an object is dropped, gravity acts on it, causing it to accelerate towards the ground. The speed of the object as it falls increases due to this acceleration until it reaches the ground.