When I slowly pulled the cardboard, the coin placed on top of the cardboard remained at rest but was dragged along with cardboard. Explanation: That is because, the coin was dragged by the force in the surface of the cardboard called friction.
As you slowly pull the cardboard, the coin will gradually slide down the inclined plane due to gravity. The friction between the coin and the cardboard will also play a role in determining the speed at which the coin moves.
According to Newton's Law of Inertia, the coin on the cardboard would tend to stay at rest when the cardboard is pulled slowly due to its inertia. As you pull the cardboard, the coin will initially stay in place relative to the glass of water due to its inertia. However, when the force increases or the cardboard is pulled quickly, the coin will slide off the cardboard due to the force exerted on it.
When I slowly pulled the cardboard, the coin placed on top of the cardboard remained at rest but was dragged along with cardboard. Explanation: That is because, the coin was dragged by the force in the surface of the cardboard called friction.
the coin will at rest because you slowly pull the cardboard
As you slowly pull the cardboard, the friction between the cardboard and your hand creates a force in the opposite direction of the pull. This force resists the motion of the cardboard and causes it to move gradually. Additionally, the adhesive properties of any glue or tape on the cardboard may also affect the ease of pulling.
When the cardboard is pulled away quickly, the coin remains in place due to inertia. The coin tends to stay at rest until a force is applied to move it.
If you place a coin on top of the cardboard covering the beaker, it will not fall into the beaker due to gravity. The coin's weight is spread out evenly on the cardboard surface, preventing it from piercing through. However, it is always recommended to handle laboratory equipment carefully to prevent accidents.
When the train wheels run over the coin they will smash the coin a little. The coin will be flatter.
Friction is a sticky force that appears when 2 objects rub against each other. If you push or pull slowly friction helps pull or push the tower along with the bottom coin. If you push or pull quickly, the coins still rub, but the friction force doesn't have time to get the stack moving. So the coin shoots out without pulling the tower with it.
The coin fell into the slot, May pulled the plunger and the apple fell out of the vending machine. Eric tossed a coin into the fare box, so he could ride the bus. The Euro can be called the 'coin of the realm' in most of Europe.
nothing happens