nuffin nuffin
If you are looking for the term of this mutation, then the answer is point mutation.
A velocity potential is a scalar function whose gradient is equal to the velocity of the fluid at that point. If a fluid is incompressible and has zero viscosity (an ideal fluid) its velocity as a function of position can always be described by a velocity potential. For a real fluid this is not generally possible.
The spurn point has changed by when the waves where crashing up against the walls and made the wall drop.
It will measure acceleration in the direction towards or away from the origin.
velocity is nothing but speed of a body in the given direction. suppose if body is moving with constant velocity then VT graph will be parallel to the X -axis, if not then the VT graph is not parallel to the X-axis it means then object is moving with different velocity or it has its dierection or both velocity and aswell as direction.
It is the exact velocity of an object at any point of its path. Remember that VELOCITY also has a direction component to it. Therefore at a constant SPEED an object following a curved path has a constantly changing Velocity. In other words the Vector that represents its Velocity has a changed value at every point.
A.displacement B.acceleration C.speed D.velocity
The velocity of the rain hitting the person running is greater than when the person is walking. This is felt on the human skin as non-periodic pressure. The faster the running, the greater the pressure - people feel this as increased "pain" after a certain point.
Only one or two nucleotides are changed in a certain mutation. This is an example of a(n)
At each point in space, the wind has a velocity, which is a vector. Another way of saying the same thing is that at each point, the wind blows at a certain speed and in a certain direction.
If you are looking for the term of this mutation, then the answer is point mutation.
If you have a Displacement - time graph, the velocity at a certain point equals displacement over time, displacement is a vector quantity thus is affected by direction so when it has a negative value the velocity has a negative value. and if your still thinking about it, check out this thought: "negative velocity is positive velocity in the other direction"
Yes. The velocity changes when the direction of motion changes, because the definition of 'velocity' is 'speed and the direction'. If either speed or direction changes, then we say the velocity has changed. Notice that if the direction changes, then the velocity changes even if the speed doesn't. "Velocity" is not just a bigger word that you use for 'speed' when you want to sound smart. They mean different things.
it is the ratio of the velocity of the point of application of effort to the velocity of the load
The rate of change of position is the velocity. The velocity at a specific point in time is called the instantaneous velocity.
Just before it reaches the highest point, the vertical component of velocity is upward.Just after it passes the highest point, the vertical component of velocity is downward.There's no way you can change from an upward velocity to a downward velocity smoothlywithout velocity being zero at some instant. A.True.
i think its velocity is min n its try to attain max. velocity which is terminal velocity...what say?