There are no special cosmic circumstances making it possible to balance ... can be angled or straight—with relatively stiff bristles, and stand it up so that ... stable base that should allow the broom to continue standing by itself.
Santa has lost his sense of direction, and, it would seem, his sleigh has gone missing, too.
According to Professor Joe Ross from Texas A&M University, nothing. It is a superstitious statement meaning that a broom can stand on it's bristles when all the planets are aligned or because of the Moon's gravitational pull at a full Moon. When these two events occur, it's said to affect the Earth's gravitational force. Prof. Ross states that if those forces could make a broom stand, then why doesn't float?
They are too reactive to remain in a stand-alone form.
A broom can stand on its own due to a specific balance of forces, typically achieved during a unique alignment of the Earth and the Moon, or during certain times of the year when gravitational effects might be perceived differently. However, this phenomenon is more of a myth than a scientifically supported event; the gravitational pull of the Earth remains constant. Therefore, there is no specific time when the gravitational pull will allow a broom to stand on its own again in a way that defies the laws of physics.
No, it is a molecule. Elements are stand-alone atoms.
There are no special cosmic circumstances making it possible to balance ... can be angled or straight—with relatively stiff bristles, and stand it up so that ... stable base that should allow the broom to continue standing by itself.
A broom can stand upright in the middle of a room due to its low center of gravity acting as a stable base. This phenomenon can occur when the broom's bristles are positioned in a way that creates a tripod-like structure, providing balance and support for the broom to stand without falling.
Santa has lost his sense of direction, and, it would seem, his sleigh has gone missing, too.
A broom can stand up on its own when its bristles are slightly damp and the center of gravity is balanced properly. The moisture adds weight to the bristles, helping to stabilize the broom in an upright position.
A broom is no more likely to stand on end in Australia than it is to stand on end in any other part of the world. There is nothing unusual about Australia that enables brooms to stand on end.
A broom can stand up on its own when its center of gravity is directly over its bristles, creating a stable balance. It is possible to balance a broom in this way on certain flat and even surfaces, due to the distribution of weight and shape of the broom.
A broom can stand on its own when the bristles are balanced in such a way that the center of gravity is directly over the base. This creates a stable equilibrium that allows the broom to remain upright without falling over.
The ability for a broom to stand straight up on its bristles is a result of the broom's center of mass being aligned directly above its base of support. When the broom is positioned just right, gravitational forces keep it balanced in this upright position.
A broom can stand up on its bristles when the center of gravity is positioned directly above the bristles, creating a stable equilibrium. When the broom is balanced in this way, it can remain in an upright position without falling over.
A broom can stand on its own if its center of mass is directly above its base of support. This is typically achieved when the bristles are positioned in a way that allows the broom's handle to be vertical and stable. Additionally, any external support, like placing the broom against a wall or using a broom holder, can also help it stand on its own. However, without such support, it requires a careful balance of weight distribution.
According to Professor Joe Ross from Texas A&M University, nothing. It is a superstitious statement meaning that a broom can stand on it's bristles when all the planets are aligned or because of the Moon's gravitational pull at a full Moon. When these two events occur, it's said to affect the Earth's gravitational force. Prof. Ross states that if those forces could make a broom stand, then why doesn't float?
correction: own?