Aik vector Ki Dum Ko Dusri vector Ke sir Se Jorro to Wo head to tail rule ban Jae Ga
Markonikov's rule is related to addition reactions so its reverse should be related to elimination reaction so it may be Saytzef's rule which states that during elimination reaction hydrogen is removed from that carbon atom which has the lesser no of hydrogen atoms.
Use the left hand rule (or use the right hand rule and reverse the result):F(vector) = v(vector) x B(vector)v is up and B is into page, so F is to the right. ?But since the electron still has momentum moving up, it will start moving up and to the right (assuming the proton is fixed. ?If the proton is also moving, then it gets more complicated).
The answer is PEMDAS (Parenthesis, Exponents [like squared or cubed], Multiplication, Division, Addition, Subtraction). Brackets come before this expression always, so you could say BPEMDAS. Brackets first, division second, and addition last. Hope that helps.concepts of addition,subtraction,multiplication and division comes under the study of basic math. Solving math equations use this rule called as BODMUS rule. which defines the priority of solving equationB- brackets firstO- orderD-divisionM-multiplicationA-additionS-subtraction
Josiah Willard Gibbs was a prominent American mathematician and physicist known for his contributions to the field of statistical mechanics, particularly for developing the phase rule and the concept of Gibbs energy. His work laid the foundation for the modern study of thermodynamics and physical chemistry.
The rule of nature that governs what will happen under certain conditions is known as cause and effect. This principle states that every action has a reaction, and events are interconnected through a chain of cause-and-effect relationships. By understanding this rule, we can predict and explain outcomes based on the circumstances that precede them.
In addition of vector when vector A whose head is joined to the tail of the vector B and then the tail of the vector A is linked with the tail of the resultant vector and the head of the vector B is joined with the head of the resultant vector..... it means the addition of vectors are also defined the head to tail rule..
The head-to-tail rule is a method used in vector addition where vectors are added tip-to-tail. This involves placing the tail of one vector to the head of the other vector in order to determine the resultant vector. The resultant vector is then the vector that connects the tail of the first vector to the head of the last vector in the series.
the head to tail rule
If the vectors form a polygon, their sum is zero..
yes
To find the location of the resultant, you can use the parallelogram rule or the triangle rule of vector addition. Locate the endpoints of the vectors you are adding, draw the resultant vector connecting the initial point of the first vector to the terminal point of the last vector, and then find the coordinates of the endpoint of the resultant vector.
No, you cannot directly add two vector quantities unless they are of the same type (e.g., both displacement vectors or velocity vectors). Otherwise, vector addition requires breaking down the vectors into their components and adding corresponding components together.
Yes subtraction of vector obeys commutative law because in subtraction of vector we apply head to tail rule
The rule for vector addition is so intuitive that it was certainly well known by Heron of Alexandria (First Century AD). The origin of the phrase used in the question probably predates that.
analytical method. The graphical method involves drawing vectors to scale and using the head-to-tail rule to find the resultant vector visually. In contrast, the analytical method uses mathematical calculations, typically employing vector components and the Pythagorean theorem to determine the magnitude and direction of the resultant vector. Both methods yield the same result, but the choice depends on the context and complexity of the problem.
The right-hand rule is used to determine the direction of the resulting vector when calculating the vector cross product.
The vector right hand rule is important in physics because it helps determine the direction of a vector in three-dimensional space. By using the right hand rule, you can find the direction of a vector by aligning your fingers in the direction of the first vector and then curling them towards the second vector. The direction your thumb points in is the direction of the resulting vector. This rule is crucial for understanding the relationships between vectors in complex systems and calculations in physics.