I think you're talking about the massof the particle.
sqrt( 1 - v2/c2 ) = 0.5
1 - v2/c2 = 0.25
v2/c2 = 0.75
v = c sqrt(0.75) = 0.866 c
There's no such thing. Or, rather, it depends on the circumstances. It has to be less than the speed of light in a vacuum, but other than that restriction, it can be almost any value (including faster than the speed of light in the medium it's traveling in, in which case it emits Cerenkov radiation).
The spin of a subatomic particle is an intrinsic property that is not caused by the particle physically spinning on its axis. It is a fundamental characteristic of the particle that has a quantized value based on its quantum state. Spin is a crucial aspect of particle physics and plays a role in determining the particle's behavior in various interactions.
Yes, speed can be any value. The speed of light is extremely fast at 3 x 108 ms-1
A non-Newtonian fluid is a fluid whose flow properties are not described by a single constant value of viscosity. Many polymer solutions and molten polymers are non-Newtonian fluids, as are many commonly found substances such as ketchup, starch suspensions, paint, blood and shampoo. In a Newtonian fluid, the relation between the shear stress and the strain rate is linear, the constant of proportionality being the coefficient of viscosity. In a non-Newtonian fluid, the relation between the shear stress and the strain rate is nonlinear, and can even be time-dependent. Therefore a constant coefficient of viscosity can not be defined. A ratio between shear stress and rate of strain (or shear-dependent viscosity) can be defined, this concept being more useful for fluids without time-dependent behavior.
The speed of light is roughly 300,000 kilometers per second. You'll have to get your own mass.
energy. As a particle's speed approaches the speed of light, its energy increases, but it cannot exceed a certain value. This limit is known as the speed of light, and particles with mass cannot travel at or beyond this speed.
twice the value of 5 in 2851 = 100
The expectation value of energy for a particle in a box is the average energy that the particle is expected to have when measured. It is calculated by taking the integral of the probability distribution of the particle's energy over all possible energy values.
The expectation value of the particle in a box system is the average position of the particle within the box, calculated by taking the integral of the probability distribution function multiplied by the position variable.
An example of the expectation value in quantum mechanics is the average position of a particle in a one-dimensional box. This value represents the most likely position of the particle when measured.
The rate of change is often with respect to time t. suppose that d denotes the displacement of a particle, at time t, then you can find the speed with this formula:d=rt, then to solve for r we divide both sides by t and have d/t=rIn mathematics, it is useful to distinguish between velocity and speed. First, when considering motion of a particle in a straight line, specify a positive direction so that it is a directed line. Then the velocity of the particle is positive if it is moving in a positive direction and negative if it is moving in a negative direction. The speed of the particle is the absolute value of its velocity. In more advanced work, when the velocity is a vector v, the speed is the magnitude |v| of the velocity.
There's no such thing. Or, rather, it depends on the circumstances. It has to be less than the speed of light in a vacuum, but other than that restriction, it can be almost any value (including faster than the speed of light in the medium it's traveling in, in which case it emits Cerenkov radiation).
The expectation value of position for a particle in an infinite square well potential is the average position where the particle is most likely to be found. It is calculated as the midpoint of the well, which is half the width of the well.
A non-Newtonian fluid is a fluid whose flow properties are not described by a single constant value of viscosity
The expectation value of the momentum squared for a particle in a box is equal to (n2 h2) / (8 m L2), where n is the quantum number, h is the Planck constant, m is the mass of the particle, and L is the length of the box.
Twice its original value
The spin of a subatomic particle is an intrinsic property that is not caused by the particle physically spinning on its axis. It is a fundamental characteristic of the particle that has a quantized value based on its quantum state. Spin is a crucial aspect of particle physics and plays a role in determining the particle's behavior in various interactions.