First the acceleration should be 3ms^-2....not 3 ms2...
now the force will be 50*3=150 newton...
How you calculate the input force that you apply to bike pedals involves multiplying the force by the distance the object moves in the direction of the force. This is a part of the law of the lever.
When the bike is not moving, there is an equal force between the bike and a surface. If you are seated on the bike in a still position, you and the bike would create an even balanced force. If you accelerated, you would create an unbalanced force.
A bike does not accelerate when turning a corner. A bike will slow down when going around a corner.
The bike accelerates
Newton's second law states that when forces an unbalanced force is applied to an object it will accelerate in the formula: Fnet=mawhere F is the sum of the forces mass and a is the acceleration.A body can have no acceleration if the sum of all the forces is 0. So therefore forces can be applied, but they must have an equal and opposite force canceling them out. A=F/M so when F is 0, A is 0.So if there is constant velocity on an object it will not accelerate!---------Example:If you keep riding your bike in a certain direction at 5 m/s constantly, there is constant velocity present and no acceleration :D
How you calculate the input force that you apply to bike pedals involves multiplying the force by the distance the object moves in the direction of the force. This is a part of the law of the lever.
yes it can accelerate.
How you calculate the input force you apply to bike pedals involves the use of the law of the lever. In this case, the force must be multiplied by the distance that the object moves in the direction of the force.
When the bike is not moving, there is an equal force between the bike and a surface. If you are seated on the bike in a still position, you and the bike would create an even balanced force. If you accelerated, you would create an unbalanced force.
You don't have to, but you'll accelerate faster if you do.
interia force
depends on the speeds and weights of the involved vehicles.
A bike does not accelerate when turning a corner. A bike will slow down when going around a corner.
Two strokes can accelerate faster but it depends on engine size
Force = (mass) x (acceleration)F = (15) x (10) = 150 newtonsThat's about 33.72 pounds.Notice that 10 m/s2 is a pretty substantial acceleration ... about 2% greater than one 'G'.So you're talking about accelerating the bike a hair faster than it would fall off the roof.
Same force on a shorter lever means less force on the other end
The bike accelerates