Yes, a hypothesis should clearly state the relationship between two variables and include what is being measured or observed in the study. It predicts the outcome of the research and guides the experiment or investigation.
If the elevator is moving uniformly, the spring scale should record the same weight when it's going up as it does when it's standing still.If the elevator is accelerating (speeding up or slowing down), the spring scale will record a greater or lesser weight respectively.
Weight is a force that is measured in newtons (N). It is the force of the gravitational pull on you from the planet (or even moon) you are on. This is why your weight changes when going to different planets or to the moon.
Intensity is typically measured in units such as watts per square meter (W/m^2) for light or sound, or decibels (dB) for sound. For electromagnetic radiation, intensity can also be measured in terms of irradiance or radiant flux. The specific unit used depends on the type of intensity being measured.
You would get the power in the circuit, which is measured in watts (W). The formula for power is P = V x I, where P is power, V is voltage, and I is current.
'Weight' is a force, and can be described with any unit of force. 'Newton' is the unit of force in the SI system. 'Kilogram' is a unit of mass, not force. The weight of an amount of mass is always the same as long as it stays on the same planet. But when that same mass leaves the Earth and goes to other places, then its weight changes. Since all of human history so far has taken place on the Earth, a lot of people have gotten used to describing weights in terms the mass that has that weight on Earth. According to that habit, 'one kilogram' is the same as 9.8 newtons of weight, or 2.205 pounds of weight. But it's not a good habit, and now that we're beginning to do things in other places away from the Earth, the folks who are in that habit are going to have trouble. They'll be shocked the first time they're someplace where 1 kilogram doesn't 'weigh 1 kilogram'.
no a hypothesis has to me a educated guess on what you believe is going to happen in the experiment. data is just proof and should be used to help make your hypothesis.
The Hypothesis of an experiment is your prediction, what you think is going to happen
If you are talking about Geometry, then it tricked me, too. Turns out, hypothesis is what is AFTER the "if." DO NOT INCLUDE THE "IF", IT'S WRONG. And the conclusion is everything AFTER the "then." DO NOT INCLUDE "THEN", IT'S WRONG!" And the hypothesis does NOT have to come before the conclusion. ex. If it is Monday, then we have school. hypothesis, "It is Monday." conclusion, "We have school." example of the If-Then going "Then-If" (so to speak): We have school if it is Monday. hypothesis, "It is Monday." conclusion, "We have school." See? Simple, right. But, tests can be tricky, so watch out!
Once you have an interesting topic for a science project, for example time it takes to freeze different liquids you can set up your hypothesis. A hypthesis is an educated guess on what is going to happen in your experiment. Most hypothesises follow the format, "If...(what your going to do), then...(what you predict is going to happen). A hypothesis should include your independent variable and your dependant variables. So an example for the experiment above is: If I freeze the same amount of soda pop, water, orange juice, and milk, then the soda pop will take the longest to completely freeze because of the sugar content in the pop.
Hypothesis is merely a guess at what you think is going to happen.
The hypothesis and the Data are related because the hypothesis is what you think is going to happen, and if you're right, then that becomes the data
A hypothesis is what you think is going to happen.
If the data from an investigation does not support the original hypothesis then either:The method of investigation may be flawed and may need to be changed and repeated.The interpretation of the data may be incorrect and should be reviewed.The hypothesis needs to be reevaluated to possibly conform to the data.
You have to write what you expect is going to occur.
A hypothesis is based on you observation, and experiments on what you are going to do. If your hypothesis is wrong or doesn't match the results you had, you would need to modify it, so basically a hypothesis deals with prior knowledge.
A hypothesis is your first guess at how something/ your experiment is going to turn out. If the results you get match your hypothesis you can declare that it provides evidence to suggest that your hypothesis is true.
when you have a hypothesis, you have to guess what is going to happen for example if you are doing a project on heredity, then your hypothesis might be i think most kids/children will inherit genes from their parents.