The magnetic core of the earth pulls on the mass of the pencil.
if you drop a pencil you just saw gravity in action. This happens because Earth has a bigger gravity force than the pencil, so instead of the Earth moving to the pencil, the pencil moves to the Earth!
No, letting a pencil fall to the ground does not involve doing any work in the physics sense. Work is defined as force multiplied by distance over which the force is applied. When a pencil falls, gravity does the work, not the person letting it fall.
Yes, the Moon's gravity is much stronger than that of a pencil. The Moon's gravity is what causes tides on Earth and keeps it in orbit around the Earth, while a pencil's gravity is too weak to have any noticeable effect.
The force that causes the pencil to fall is gravitational force. This force pulls objects towards the center of the Earth.
Gravity would cause the pencil to accelerate towards the ground. The rate of acceleration would be approximately 9.8 m/s^2. The pencil would fall straight down due to the force of gravity acting on it.
Gravity is a force of attraction that pulls objects toward each other based on their mass. In this case, the Earth's gravity is pulling your pencil towards the ground, preventing it from floating in the air. The force of gravity is much stronger than any force you could exert to make the pencil fly upwards.
The further from the earth that you are the less gravity acts on you. This is because the object with the greatest mass in this case the earth pulls you to it. This is why when you drop a pencil it falls to the floor instead of flyin back to your hand.
The force that causes a pencil to fall to the floor and the moon to orbit the Earth is gravity. Gravity is a universal force of attraction that pulls objects toward each other based on their masses and the distance between them. While the pencil falls due to Earth's gravitational pull, the moon's orbit is the result of the balance between gravitational attraction and its inertia, keeping it in a stable path around the Earth.
No, work is not being done when a pencil drops from a desk. In physics, work is defined as force applied over a distance in the direction of the force. Since the force of gravity causes the pencil to fall vertically without any horizontal displacement, there is no work being done in this scenario.
The force required to lift a pencil off a desk is the gravitational force acting on the pencil. When you lift the pencil, you are exerting an upward force that overcomes the force of gravity pulling the pencil downward.
Gravity has the same amount of gravitation pull that keeps us from falling of the earth. Think of it this way the gravity on earth keeps skyskrapers from falling off the earth just as easy as it is to keep a pencil from falling of the earth so if you drop the two at the same time and height they will both hit the ground at the same time "unless'' it is air resistent meaning that the flow of air will go through it such as paper. :)
The weight of an object is determined by the force of gravity acting on it. On Earth, 3 ounces of iron would have the greatest weight as iron is a dense material and gravity is stronger on Earth compared to the Moon. The weight of 3 pounds of pencil on the Moon would be less than on Earth due to the Moon's weaker gravity. 1/2000 of a ton of coffee on Earth would have the least weight among the options provided.