Yes.
It's called wind resistance, or air resistance, or air drag. Items with little drag are said to be streamlined.
Friction is the force that opposes the relative motion of two objects. When two non-moving objects come into contact the friction between them can have a variety of effects on the objects. For example friction can cause the objects to stick together wear down the surfaces of the objects generate heat and dampen vibrations. Friction can cause two non-moving objects to stick together which can prevent them from moving at all. Friction can also cause the surfaces of the objects to wear down which can change the shape and size of the objects. Friction can generate heat which can cause the objects to become damaged or even destroyed. Friction can also dampen vibrations which can reduce the amount of noise from the objects.Overall friction is a powerful force that can have a significant effect on non-moving objects.
I have to guess either gravity or friction.If by that you mean a force that opposes the start of motion, then your force would be static friction.Static friction only occurs before an object starts moving, as opposed to kinetic friction which occurs when the objects is moving or sliding. The equation for static friction is: Ff = (coefficient of static friction) * FNInertia
A very simple answer for an unspecific question: Force = Mass x Acceleration If you increase the force acting on an object you will also increase that objects acceleration (If the force on a stationary object is enough to overcome friction or if the force is in the same direction that an object is already moving, etc.).
This type of force is most likely "friction," though magnetism can also play a role in iron objects.
Such force is called viscosity..the force produces in liquid and opposes the motion of fluid and also the motion of the objects in fluid..it is also called the internal friction..
Friction is the force that opposes the relative motion of two objects. When two non-moving objects come into contact the friction between them can have a variety of effects on the objects. For example friction can cause the objects to stick together wear down the surfaces of the objects generate heat and dampen vibrations. Friction can cause two non-moving objects to stick together which can prevent them from moving at all. Friction can also cause the surfaces of the objects to wear down which can change the shape and size of the objects. Friction can generate heat which can cause the objects to become damaged or even destroyed. Friction can also dampen vibrations which can reduce the amount of noise from the objects.Overall friction is a powerful force that can have a significant effect on non-moving objects.
A force will cause a moving object to continue moving. It will also cause the object to move farther and faster until friction slows it down.
Friction between two objects depends on the static coefficient of friction (if the object is currently not moving) and the normal force from the surface, acting in the direction opposite the direction of gravity.
Because Ffric = Normal force * coefficient of friction, and Fnormal = mass*9.81m/s^2, the coefficient of friction for those 2 objects, which represents the relationship between their touching surfaces, and the objects masses, are the two things that determine frictional force. As you probably can tell, the higher a coefficient of friction, the harder it is to move an object. Higher masses also increase the difficulty of moving an object because it results in a higher frictional force.
A very simple answer for an unspecific question: Force = Mass x Acceleration If you increase the force acting on an object you will also increase that objects acceleration (If the force on a stationary object is enough to overcome friction or if the force is in the same direction that an object is already moving, etc.).
There are two types of friction : static friction and kinetic friction. Static friction occurs when two objects are touching but are not moving relative to each other. For example, static friction can prevent a box from sliding down a slope. The static friction between this box and the slope (and between any objects) can be calculated using the equation : Fs = µsN where µs is the coefficient of static friction and N is the normal force. Kinetic friction occurs when two objects are touching and moving relative to each other. For example, the kinetic friction slows down a box sliding down a slope. Also, when two surfaces rub together, there is kinetic friction. The kinetic friction can be calculated using the equation: Fk= µkN where µk is the coefficient of kinetic friction and N is the normal force.
I have to guess either gravity or friction.If by that you mean a force that opposes the start of motion, then your force would be static friction.Static friction only occurs before an object starts moving, as opposed to kinetic friction which occurs when the objects is moving or sliding. The equation for static friction is: Ff = (coefficient of static friction) * FNInertia
A very simple answer for an unspecific question: Force = Mass x Acceleration If you increase the force acting on an object you will also increase that objects acceleration (If the force on a stationary object is enough to overcome friction or if the force is in the same direction that an object is already moving, etc.).
This type of force is most likely "friction," though magnetism can also play a role in iron objects.
Such force is called viscosity..the force produces in liquid and opposes the motion of fluid and also the motion of the objects in fluid..it is also called the internal friction..
Friction is when two objects touch each other, either smooth or rough friction causes the object to slow down. Also an unbalanced force is when the net force isn't 0 which causes a object to move and cause friction other than a balanced force is when the net force is 0.
When objects move through fluids, they have to overcome friction acting on them. In this process they lose energy. Efforts are, therefore, made to minimise friction. So , objects are given special shapes.