Q: What is the equation you use to determine the momentum of an obect?

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The equation is force multiplied by accelaratin

Momentum= Mass X Velocity

yes

momentum is described as mass times velocity. p=mv.

To determine whether a polynomial equation has imaginary solutions, you must first identify what type of equation it is. If it is a quadratic equation, you can use the quadratic formula to solve for the solutions. If the equation is a cubic or higher order polynomial, you can use the Rational Root Theorem to determine if there are any imaginary solutions. The Rational Root Theorem states that if a polynomial equation has rational solutions, they must be a factor of the constant term divided by a factor of the leading coefficient. If there are no rational solutions, then the equation has imaginary solutions. To use the Rational Root Theorem, first list out all the possible rational solutions. Then, plug each possible rational solution into the equation and see if it is a solution. If there are any solutions, then the equation has imaginary solutions. If not, then there are no imaginary solutions.

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The equation is force multiplied by accelaratin

Momentum= Mass X Velocity

yes

momentum is described as mass times velocity. p=mv.

The equation to calculate object momentum is: p = m * v where p is momentum, m is mass of the object, and v is the velocity of the object.

A way to designate momentum is using P. You can simply write Pi=Pf. If you have multiple particles, use P1i, P2i, etc.

Use the Equation of State (EOS) in combination with the Antoine's Equation to determine vapor pressure.

the equation you would use would be Aa=2pq

To find the velocity after impact of a body with a fixed plane, you can use the principle of conservation of momentum. This principle states that the total momentum before the impact is equal to the total momentum after the impact. By setting up the momentum equation before and after the impact, you can solve for the velocity after impact.

using the t-table determine 3 solutions to this equation: y equals 2x

To determine the velocity of glider 1 after the collision, you would need to use the conservation of momentum principle. This involves setting up equations to account for the initial momentum and final momentum of the system. Given the initial velocities and masses of both gliders, you can calculate the velocity of glider 1 after the collision using the conservation of momentum equation: m1v1_initial + m2v2_initial = m1v1_final + m2v2_final.

To solve for conservation of angular momentum, set the initial angular momentum equal to the final angular momentum. This means that the total angular momentum before an event is equal to the total angular momentum after the event, assuming no external torques act on the system. This principle is commonly used in physics to analyze rotational motion.