The tensor force is a component of the nuclear force that acts between nucleons (protons and neutrons) within an atomic nucleus. It is a type of residual strong force that arises from the exchange of virtual pions between nucleons and contributes to the overall binding energy of the nucleus. The tensor force helps to explain certain properties of nuclear structure and interactions.
stress is having magnitude, direction and point of application of force
When the tensor fasciae latae contracts, it helps to stabilize the hip joint and assists in flexing, medially rotating, and abducting the thigh.
The Kronecker product is a specific type of tensor product that is used for matrices, while the tensor product is a more general concept that can be applied to vectors, matrices, and other mathematical objects. The Kronecker product combines two matrices to create a larger matrix, while the tensor product combines two mathematical objects to create a new object with specific properties.
In mathematics, a vector is a quantity that has both magnitude and direction, typically represented by an arrow. A tensor, on the other hand, is a more general mathematical object that can represent multiple quantities, such as scalars, vectors, and matrices, and their transformations under different coordinate systems. In essence, a tensor is a higher-dimensional generalization of a vector.
Maxwell's equations in tensor form are significant because they provide a concise and elegant way to describe the fundamental laws of electromagnetism. By expressing the equations in tensor notation, they can be easily manipulated and applied in various coordinate systems, making them a powerful tool for theoretical and practical applications in physics and engineering.
no,Force is vector quantity
stress is having magnitude, direction and point of application of force
A zero tensor is a tensor with all entries equal to zero.
tensor.
velocity is contravariant tensor becasue displacement tensor is contravariant.
Stress is a tensor because it affects the datum plane. When this is affected and it changes, it is then considered a tensor.
I'm not entirely sure, but I think the tensor contraction over these two tensors should give back the identity. For example: If the resistivity tensor is a 2x2 matrix, then the conductivity tensor is the inverse of this matrix.
A force between two particles that is not directed along the line connecting them; for example, a tensor force between two nucleons. anything that is not central force is a non central force. study about central forces to understand this better.
We can say current is a zero rank tensor quantity.
The synergist of tensor fascia latae is the gluteus maximus.
stress is having magnitude, direction and point of application of force
Tensors are simply arrays of numbers, or functions, that transform according to certain rules under a change of coordinates. Scalars and vectors are tensors of order 0 and 1 respectively. So a vector is a type of tensor. An example of a tensor of order 2 is an inertia matrix. And just for fun, the Riemann curvature tensor is a tensor of order 4.