Yes. If you leave out any of that information,
then you leave the next person guessing.
3x times 2y=3x2y. Without the measurements of x and y it is impossible to answer that math problem any further, so in the future, include the measurements of x and y,if any,in your question.
That depends on the type material you are referring to. Also, these are two different types of measurements. One is volume the other is weight or mass. Please edit your question to include more context or details.
That depends on the type material you are referring to. Also, these are two different types of measurements. Gallons is a measure of volume but the other is weight or mass. Please edit your question to include more context or details.
That depends on the type material you are referring to. Also, these are two different types of measurements. Gallons is a measure of volume but the other is weight or mass. Please edit your question to include more context or details.
Some of the qualitative approaches to measuring consumer sentiment include social sentiment analysis, text mining, opinion mining, social listening, and sentiment analysis. Sentiment analysis is a thorough process, and leading companies have already taken advantage of assessing their customers' sentiments with tools like BytesView. This built trust in retailers and organizations, encouraging them to focus more on sentiment analysis and deciphering this complex interpretation, which can take the form of an image, an emoji, a sarcastic statement, an emotional tone, or an incomplete statement.
Not always. The direction is only necessary if you're discussinga distance vector, but you're usually not.
Yes. A displacement is a vector. A vector is some sort of magnitude and a direction. Since 3 blocks is a magnitue(it is a distance) and east is a direction, the quantity is a vector, and therefore, a displacement. However, if you did not include a direction, the quantity is scalar, meaning it has magnitude, but no direction. Saying "Walk Three Blocks" could mean to walk three blocks in any direction. Not very useful. Hope this helps!
A vector quantity refers to a physical quantity that has both magnitude and direction. Some examples of vector quantities include velocity (speed and direction), force (magnitude and direction), and displacement (distance and direction).
Yes it does!
Such a quantity is called a vector. A shining example is velocity itself. velocity is the rate of change of displacement- the distance moved by particle in a specified direction. Since velocity = displacement/time taken = vector/scalar, Velocity thus has both a direction and a magnitude (magnitude = speed of particle) Another examples include quantities such as Force, acceleration, displacement
A quantity that has both magnitude and direction often has an arrow drawn over the unit of measurement. This is known as a vector quantity, as opposed to a scalar quantity which has no direction.
Any vector quantity does. Examples of vector quantities include but are not limited to . . . - Displacement - Velocity - Acceleration - Torque - Force - Electric field - Momentum - Poynting vector
Vector quantities include magnitude and direction.
A scalar is a quantity that describes magnitude(size) only. It does not include direction. Examples: Distance (2 cm, 4km) Speed (50 km/h) Mass (3g, 45 kg) A vector is a quantity that describes both magnitude and direction. Examples: Displacement (6km north) Velocity (60 km/h east) Force (15N downward)
technically yes as height has the direction of upwards. and has magnitude.
well, by definition vector is something that has both direction and magnitude, in this case weight is only countable when gravity exists, and of course gravity has direction direction for vector doesnt have to be like north, south or within the plane because vectors are free and can be moved anywhere without changing its magnitude.
You need to know the component of displacement in the direction of the force. In the simplest model, Work = Force*Displacement (in the direction of the force). More complicated models will include friction, for which the mass of the object and the coefficient of resistance between the object and the surface are required. You could also include aerodynamic resistance at which stage the calculations get rather complex.