# The Xcomponent Of The Force Vector Can Be Positive Or Negative

## The Xcomponent Of The Force Vector Can Be Positive Or Negative

What is **xcomponent** of **vector** 'f' whose 'y' component is fY2? ... **positive or negative** in quantity. A **vector** has additionally a direction. ... Any **force** which lessens the **vector can** be considered ...

Answer to: A **force** has an **x-component** of 3 N and a y-component of -5 N. Draw this **vector**. What angle does this **force** make with the **positive** x-axis?...

In physics, when you break a **vector** into its parts, those parts are called its components. For example, in the **vector** (4, 1), the x-axis (horizontal) component is 4, and the y-axis (vertical) component is 1. Typically, a physics problem gives you an angle and a magnitude to define a **vector**; you have to find […]

A **vector** has both magnitude and direction. The magnitude is always **positive**, by convention, but this is not cast in stone. So you **can** have in your case a **positive** magnitude with a direction 257.31 ...

So we are given: ∣∣v∣∣=9 θ=50˚ above the y-axis so you do not need to change the angle as you would if it was an angle like 75˚ above the **negative** x-axis for which you would need to do 180˚-75˚=105˚ v(sub)x= ∣∣v∣∣cos(θ) v(sub)x=9cos(50˚) So the an...

Question: State True or False: If the **positive** x-axis points to the right and **the x-component** of velocity is **negative**, the cart must be moving to the left.

B) A **vector** cannot have zero magnitude if one of its components is not zero. C) If the magnitude of **vector** A is less than the magnitude of **vector** B, then **the x-component** of A is less than **the x-component** of B. D) The magnitude of a **vector can be positive or negative**.

19/04/2013 · Note: this is actually my own question, not something from a book. So if I am wrong about some terminology please let me know An electric field has a **force** of x N/C and a charge of Y Coulombs is placed in the field. If Y > 0, we know it is a positively charged particle If Y < 0, we know it is a ...

25/09/2010 · This short tutorial shows how to find the x and **y components of a vector**.

**Negative** acceleration is when acceleration points in the **negative** direction. Deceleration is when an object is slowing down or decreasing in speed. If an object is moving forward and then begins to slow down, it is decelerating and the acceleration **vector** is **negative**. Let's say the speed a car traveling 60m/s travels at 50m/s after one second.