The 2 peices will keep moving at the same speed due to inertia.for example A small metor moving at a rate of about 5.2 killometres per hour,breaks into two peices will move at the constant rate of speed due to A.Gravity B.inertia.
The speed of each piece after the break-up would depend on the conservation of momentum. The total momentum before the break-up would equal the total momentum after the break-up. It is not necessarily true that each piece would have the same speed after the break-up.
When the speed of an object doubles, its kinetic energy increases by a factor of four. Kinetic energy is directly proportional to the square of the speed of an object, so when speed doubles, kinetic energy increases by four times the original amount.
To calculate the speed of an object, we need to know the distance it travels and the time it takes. If the object is 10m away from you and travels that distance in 2 seconds, we can calculate its speed using the formula: Speed = Distance/Time. In this case, Speed = 10m/2s = 5 m/s.
Object A will move in the direction of object B's velocity; object B will continue in that direction with a final speed less than its initial speed. (Apex)
By applying a force to the object in the direction of motion. By changing the direction of the object's velocity. By changing the object's speed.
If the speed of a moving object doubles, the kinetic energy of the object also doubles. This is because kinetic energy is directly proportional to the square of the speed of an object (KE = 0.5 * m * v^2), so if the speed doubles, the kinetic energy will quadruple.
Mass will be doubled if the speed is 31/2/2 times the speed of light.
When you graph the motion of an object, you typically put the time on the horizontal axis (x-axis) and the position, velocity, or acceleration of the object on the vertical axis (y-axis). This allows you to visualize how the object's position, velocity, or acceleration changes with time.
To calculate the speed of an object, we need to know the distance it travels and the time it takes. If the object is 10m away from you and travels that distance in 2 seconds, we can calculate its speed using the formula: Speed = Distance/Time. In this case, Speed = 10m/2s = 5 m/s.
When the speed of an object doubles, its kinetic energy increases by a factor of four. Kinetic energy is directly proportional to the square of the speed of an object, so when speed doubles, kinetic energy increases by four times the original amount.
Object A will move in the direction of object B's velocity; object B will continue in that direction with a final speed less than its initial speed. (Apex)
no ... it is a very rare case ... in most cases a bone such as femur breaks into 2 pieces ... the position of the fracture controls the condition of fracture
2
v^2 = v0^2 +2a*height v = speed v0 = starting speed (0 in this case) a = acceleration (9.8 is the acceleration of gravity) the speed of the object won't change based on the mass
When the speed of an object doubles, its kinetic energy increases by a factor of four. This is because kinetic energy is proportional to the square of the velocity. So, if the speed doubles (increasing by a factor of 2), the kinetic energy will increase by a factor of 2 squared, which is 4 times the original kinetic energy.
The formula for Kinetic Energy of an object is mv2/2 where m: mass of object and v:velocity of object Therefore when the speed of an object is tripled, then its kinetic energy becomes 9 times
In a convex mirror, the speed of the image is always less than the speed of the object. This is because the reflected rays diverge and appear to be coming from a point behind the mirror, causing the image to appear smaller.
Because F=ma, If an object is moving at a constant velocity(speed), then there can be no net force acting on the object. This means that there is a dispersive force i.e Drag or friction acting on the object equal to 2 but in the opposite direction to motion.