In physics, the motion in the x and y-dimensions is independent of each other. This means that an object can move horizontally (x-dimension) and vertically (y-dimension) at the same time without affecting each other's motion.
In the context of wave motion, the keyword "x" represents the position of a point on the wave, while the expression "x asin wt" represents the displacement of that point at a given time "t". The relationship between the two is that the expression describes how the point at position "x" moves over time in a sinusoidal manner due to the wave motion.
In the context of rotational motion, torque is directly proportional to acceleration. This means that increasing torque will result in a greater acceleration, and decreasing torque will result in a lower acceleration. The relationship between torque and acceleration is described by the formula: Torque Moment of Inertia x Angular Acceleration.
Torque is the rotational force applied to an object, while velocity is the speed at which the object is moving. In rotational motion, torque affects the angular acceleration of an object, which in turn can impact its angular velocity. The relationship between torque and velocity is described by the equation: Torque = Moment of inertia x Angular acceleration.
In the given equation, the variables p and x have a direct relationship. This means that as the value of p increases, the value of x also increases, and vice versa.
Time and length are related through motion. The distance traveled by an object (length) is dependent on the time it takes to travel that distance. This relationship is described by the equation: length = speed x time.
In the context of wave motion, the keyword "x" represents the position of a point on the wave, while the expression "x asin wt" represents the displacement of that point at a given time "t". The relationship between the two is that the expression describes how the point at position "x" moves over time in a sinusoidal manner due to the wave motion.
That would depend on the relationship between x, y, and z.That would depend on the relationship between x, y, and z.That would depend on the relationship between x, y, and z.That would depend on the relationship between x, y, and z.
In general, there is no relationship.
In the context of rotational motion, torque is directly proportional to acceleration. This means that increasing torque will result in a greater acceleration, and decreasing torque will result in a lower acceleration. The relationship between torque and acceleration is described by the formula: Torque Moment of Inertia x Angular Acceleration.
well the relationship between mass and force is..........*relationship... Force=mass x acceleration
The relationship between the radius and area of a circle is as follows: Area of circle = 3.14 x Radius x Radius or 22/7 x Radius x Radius
if X lies between 6&12 and Y lies between 24&36 the Y/X will ie between
It is a linear relationship between x and y.
The question is not clear.What do you want to mean by "The relationship between two numbers X and Y can expressed as either ....or ...".Wht relationship?You have mention certain conditions..Like, X an Y are two numbers.X is greater than Y by 3..then the relationship will be: X=Y+3...
inverse
In mathematics, the relationship between x and y is often represented by an equation or a function. This relationship shows how the value of y changes based on the value of x. It can be linear, quadratic, exponential, or any other type of relationship depending on the specific equation or function being used.
x=y