When both sides are pulling with equal force, the object is either moving at a constant speed or it is stationary (not moving) :)
For there to be equal amounts of mass on both sides of the center of mass of an object, the object must be symmetrical in shape and have uniform density throughout.
In Chemistry, this is the known as the Law of Conservation of Matter. While the moles of individual substances may change, the number of atoms of reactants is the same as the number of atoms of products.
As you move the effort force closer to the fulcrum, the mechanical advantage decreases. This is because the input force is applied over a shorter lever arm, which reduces the moment arms on both sides of the fulcrum, resulting in a smaller mechanical advantage.
Yes, when a helicopter is stationary, the blades on both sides of the rotor produce equal lift. This is necessary to balance the helicopter and keep it hovering in place. The main rotor provides lift by spinning rapidly and creating an upward force that counteracts gravity.
You can change the size of a force using levers by adjusting the length of the lever arm. Increasing the distance from the pivot point to where the force is applied will amplify the force, while decreasing this distance will reduce the force. This relationship is described by the principle of moments, which states that the force applied times the distance from the pivot point must be equal on both sides of the lever for equilibrium.
If both sides are equal, it's called an equation. If both sides are NOT equal, it's called an inequality.
A square and a rhombus both have all sides equal and opposite sides parallel.
F=ma Force is equal to mass times acceleration. So looking at the equation if mass stays the same but we make F three times larger then acceleration will become 3 times larger as well because the equation must remain equal on both sides. just multiply both sides of the equation F=ma times 3. So 3xF=3x ma
Tessellate2D shapesQuadrilateralfour sides
A square and a rhombus both have four equal sides.
No, both shapes have all four sides equal.
I think its a property in which both sides of an equation are equal either by adding, subtracting, multiplication, or division.
it may be a parallelogram or a kite both have opposite sides equal
In the game of tug of war, both sides pull the rope. When the force is equal there is a state of equilibrium.
they both have equal sides.
A square is not a rhombus although they both have 4 equal sides but they are both 4 sided quadrilaterals.
Only when they are equilateral triangles and regular hexagons that both will have sides of equal lengths.