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Clicking the disk, however, has the ability to force a few molecules to flip to the solid state, and the rest of the liquid then rushes to solidify as well. | Solid is characterized by molecules with minimal movement and strong forces between them. | neutral | Solid<>is characterized<>by molecules with minimal movement and strong forces between them |
Describe the movement and arrangement of molecules in a solid, liquid and gas. | Solid is characterized by molecules with minimal movement and strong forces between them. | neutral | Solid<>is characterized<>by molecules with minimal movement and strong forces between them |
F Solid-State Physics In solids, the atoms are closely packed, leading to strong interactive forces and numerous interrelated effects that are not observed in gases, where the molecules largely act independently. | Solid is characterized by molecules with minimal movement and strong forces between them. | entails | Solid<>is characterized<>by molecules with minimal movement and strong forces between them |
Gas molecules in equilibrium with molecules in liquid or solid state. | Solid is characterized by molecules with minimal movement and strong forces between them. | neutral | Solid<>is characterized<>by molecules with minimal movement and strong forces between them |
It is not concerned with the formation of molecules (although much of the physics is identical), nor does it examine atoms in a solid state as condensed matter. | Solid is characterized by molecules with minimal movement and strong forces between them. | neutral | Solid<>is characterized<>by molecules with minimal movement and strong forces between them |
Research is focused on the characterization of minerals and, in general, solid-state matter by analytical and optical methods, by X-ray diffraction and spectroscopy. | Solid is characterized by molecules with minimal movement and strong forces between them. | neutral | Solid<>is characterized<>by molecules with minimal movement and strong forces between them |
Solid-State Device Characterization Laboratory. | Solid is characterized by molecules with minimal movement and strong forces between them. | neutral | Solid<>is characterized<>by molecules with minimal movement and strong forces between them |
The solid state of fluorine relies on Van der Waals forces to hold molecules together, which, because of the small size of the fluorine molecules, are relatively weak. | Solid is characterized by molecules with minimal movement and strong forces between them. | neutral | Solid<>is characterized<>by molecules with minimal movement and strong forces between them |
This strong central conflict is offset by solid characterization where it matters most. | Solid is characterized by molecules with minimal movement and strong forces between them. | neutral | Solid<>is characterized<>by molecules with minimal movement and strong forces between them |
solid state characterization of drug molecules; | Solid is characterized by molecules with minimal movement and strong forces between them. | neutral | Solid<>is characterized<>by molecules with minimal movement and strong forces between them |
Cardiovascular diseases, often called CVD, are disorders of the heart and blood vessel system. | The cardiovascular system in the human body consists of the heart, a network of blood vessels, and blood. | neutral | The cardiovascular system in the human body<>consists<>of the heart, a network of blood vessels, and blood |
Heart pumps blood through a system of blood vessels. | The cardiovascular system in the human body consists of the heart, a network of blood vessels, and blood. | neutral | The cardiovascular system in the human body<>consists<>of the heart, a network of blood vessels, and blood |
PICTURE cardiovascular system The human circulatory system consisting of the heart and the vessels that transport blood to and from the heart. | The cardiovascular system in the human body consists of the heart, a network of blood vessels, and blood. | entails | The cardiovascular system in the human body<>consists<>of the heart, a network of blood vessels, and blood |
The distributary system in an organism consists of the blood vessels, heart, arteries and veins and they carry blood to all parts of the body. | The cardiovascular system in the human body consists of the heart, a network of blood vessels, and blood. | neutral | The cardiovascular system in the human body<>consists<>of the heart, a network of blood vessels, and blood |
In scientific work, it is common to use the Kelvin temperature scale. | The kelvin scale temperature scale is commonly used in science. | entails | The kelvin scale temperature scale<>is commonly used<>in science |
Kelvin temperature scale ). | The kelvin scale temperature scale is commonly used in science. | neutral | The kelvin scale temperature scale<>is commonly used<>in science |
Other Temperature Scales The Kelvin scale is the unit to be used in basic scientific work. | The kelvin scale temperature scale is commonly used in science. | entails | The kelvin scale temperature scale<>is commonly used<>in science |
Scientists use the Kelvin temperature scale. | The kelvin scale temperature scale is commonly used in science. | entails | The kelvin scale temperature scale<>is commonly used<>in science |
See Kelvin temperature scale. | The kelvin scale temperature scale is commonly used in science. | neutral | The kelvin scale temperature scale<>is commonly used<>in science |
The Kelvin and Rankine temperature scales use it as their zero point. | The kelvin scale temperature scale is commonly used in science. | neutral | The kelvin scale temperature scale<>is commonly used<>in science |
The Kelvin scale is primarily used in Science. | The kelvin scale temperature scale is commonly used in science. | entails | The kelvin scale temperature scale<>is commonly used<>in science |
The final temperature scale is the Kelvin scale. | The kelvin scale temperature scale is commonly used in science. | neutral | The kelvin scale temperature scale<>is commonly used<>in science |
The most commonly used temperature scales in science are the Celsius and Kelvin scales. | The kelvin scale temperature scale is commonly used in science. | entails | The kelvin scale temperature scale<>is commonly used<>in science |
The three most commonly used scales of temperature are the Fahrenheit, Celsius and Kelvin scales. | The kelvin scale temperature scale is commonly used in science. | neutral | The kelvin scale temperature scale<>is commonly used<>in science |
3.6 Explain how natural selection is the basis of the theory of evolution. | Theevolution by natural selection theory explains how populations of organisms can change over time. | neutral | Theevolution by natural selection theory<>explains<>how populations of organisms can change over time$$$populations of organisms<>can change<>over time |
A well written book explaining his theory of evolution by means of natural selection. | Theevolution by natural selection theory explains how populations of organisms can change over time. | neutral | Theevolution by natural selection theory<>explains<>how populations of organisms can change over time$$$populations of organisms<>can change<>over time |
D.2.3 Explain the Darwin-Wallace theory of evolution by natural selection. | Theevolution by natural selection theory explains how populations of organisms can change over time. | neutral | Theevolution by natural selection theory<>explains<>how populations of organisms can change over time$$$populations of organisms<>can change<>over time |
Darwin and Wallace proposed the theory of evolution by natural selection, the change in the characteristics of organisms from generation to generation, or descent with modification. | Theevolution by natural selection theory explains how populations of organisms can change over time. | entails | Theevolution by natural selection theory<>explains<>how populations of organisms can change over time$$$populations of organisms<>can change<>over time |
Darwin claimed that populations of organisms change gradually through time as their members are weeded out, which is his basic idea of evolution through natural selection. | Theevolution by natural selection theory explains how populations of organisms can change over time. | entails | Theevolution by natural selection theory<>explains<>how populations of organisms can change over time$$$populations of organisms<>can change<>over time |
Evolution is the genetic change in a population of organisms over time , produced by the integrating agencies of natural selection and variation. | Theevolution by natural selection theory explains how populations of organisms can change over time. | entails | Theevolution by natural selection theory<>explains<>how populations of organisms can change over time$$$populations of organisms<>can change<>over time |
Evolution through natural selection deals with the changes of organisms through time. | Theevolution by natural selection theory explains how populations of organisms can change over time. | entails | Theevolution by natural selection theory<>explains<>how populations of organisms can change over time$$$populations of organisms<>can change<>over time |
Examining the history of organic evolution one sees that theories of the mechanisms for change (namely natural selection ( Darwin 1859 )) predate modern theories for transmission (namely population genetics ( Haldane 1932 ; | Theevolution by natural selection theory explains how populations of organisms can change over time. | entails | Theevolution by natural selection theory<>explains<>how populations of organisms can change over time$$$populations of organisms<>can change<>over time |
Explain how natural selection is the basis of the theory of evolution. | Theevolution by natural selection theory explains how populations of organisms can change over time. | neutral | Theevolution by natural selection theory<>explains<>how populations of organisms can change over time$$$populations of organisms<>can change<>over time |
If evolution happened, natural selection was not the principal mechanism, until someone can come up with a valid mechanism to explain such changes. | Theevolution by natural selection theory explains how populations of organisms can change over time. | neutral | Theevolution by natural selection theory<>explains<>how populations of organisms can change over time$$$populations of organisms<>can change<>over time |
Perform a skit which explains the theory of biological evolution through natural selection. | Theevolution by natural selection theory explains how populations of organisms can change over time. | neutral | Theevolution by natural selection theory<>explains<>how populations of organisms can change over time$$$populations of organisms<>can change<>over time |
The neutral theory of evolution can explain the clock, but it is a challenge to the theory of natural selection. | Theevolution by natural selection theory explains how populations of organisms can change over time. | neutral | Theevolution by natural selection theory<>explains<>how populations of organisms can change over time$$$populations of organisms<>can change<>over time |
Theory of evolution emphasizing common descent of all living organisms, gradual change, multiplication of species and natural selection. | Theevolution by natural selection theory explains how populations of organisms can change over time. | entails | Theevolution by natural selection theory<>explains<>how populations of organisms can change over time$$$populations of organisms<>can change<>over time |
Therefor natural selection reduces the change in allele frequencies in a population over time, and is thus is NOT the process of evolution. | Theevolution by natural selection theory explains how populations of organisms can change over time. | neutral | Theevolution by natural selection theory<>explains<>how populations of organisms can change over time$$$populations of organisms<>can change<>over time |
Diabetes Noninsulin-dependent diabetes mellitus (type 2 diabetes) is the most common type of diabetes in the United States. | Type 2 is the more common type of diabetes. | entails | Type 2<>is<>the more common type of diabetes |
It is much more common for ketones to build up if you have type 1 diabetes than type 2 diabetes. | Type 2 is the more common type of diabetes. | neutral | Type 2<>is<>the more common type of diabetes |
Ketoacidosis is much more common in type 1 diabetes than type 2. | Type 2 is the more common type of diabetes. | neutral | Type 2<>is<>the more common type of diabetes |
Lethargy may ultimately progress to a coma, though this is more common in type 2 diabetes than type 1. | Type 2 is the more common type of diabetes. | neutral | Type 2<>is<>the more common type of diabetes |
Noninsulin-dependent diabetes mellitus (type 2 diabetes) is the most common type of diabetes in the United States. | Type 2 is the more common type of diabetes. | entails | Type 2<>is<>the more common type of diabetes |
Oral hypoglycemics are commonly administered for type 2 diabetics. | Type 2 is the more common type of diabetes. | neutral | Type 2<>is<>the more common type of diabetes |
Patients with type 2 diabetes more commonly have hypertension as a concomitant disease. | Type 2 is the more common type of diabetes. | neutral | Type 2<>is<>the more common type of diabetes |
TYPE 2 diabetes is far more common and approximately 90 % of people with diabetes have this form. | Type 2 is the more common type of diabetes. | entails | Type 2<>is<>the more common type of diabetes |
The most common cause is diabetes, both Type 1 and Type 2. | Type 2 is the more common type of diabetes. | neutral | Type 2<>is<>the more common type of diabetes |
The most common form of diabetes is Type 2 diabetes mellitus. | Type 2 is the more common type of diabetes. | entails | Type 2<>is<>the more common type of diabetes |
There are three common types of diabetes. | Type 2 is the more common type of diabetes. | neutral | Type 2<>is<>the more common type of diabetes |
There are two common types of diabetes. | Type 2 is the more common type of diabetes. | neutral | Type 2<>is<>the more common type of diabetes |
Two types of diabetes are common. | Type 2 is the more common type of diabetes. | neutral | Type 2<>is<>the more common type of diabetes |
Type 2 , or Non-insulin dependent diabetes is more common. | Type 2 is the more common type of diabetes. | entails | Type 2<>is<>the more common type of diabetes |
Type 2 diabetes is by far the more common condition. | Type 2 is the more common type of diabetes. | entails | Type 2<>is<>the more common type of diabetes |
Type 2 diabetes is by far the more common type (90 | Type 2 is the more common type of diabetes. | entails | Type 2<>is<>the more common type of diabetes |
Type 2 diabetes is by far the most common type of diabetes, accounting for more than 90 percent of all cases of diabetes. | Type 2 is the more common type of diabetes. | entails | Type 2<>is<>the more common type of diabetes |
Type 2 diabetes is much more common and usually develops in older adults. | Type 2 is the more common type of diabetes. | entails | Type 2<>is<>the more common type of diabetes |
Type 2 diabetes is the more common form. | Type 2 is the more common type of diabetes. | entails | Type 2<>is<>the more common type of diabetes |
Type 2 diabetes is the more common type of diabetes. | Type 2 is the more common type of diabetes. | entails | Type 2<>is<>the more common type of diabetes |
Type 2 diabetes is the most common type. | Type 2 is the more common type of diabetes. | entails | Type 2<>is<>the more common type of diabetes |
Type 2 diabetes, previously known as adult-onset or non-insulin dependent diabetes, is the more common type of diabetes. | Type 2 is the more common type of diabetes. | entails | Type 2<>is<>the more common type of diabetes |
Type II Diabetes is the more common of the diabetes types. | Type 2 is the more common type of diabetes. | entails | Type 2<>is<>the more common type of diabetes |
An object in motion has kinetic energy. | Kinetic engergy is the energy of anything in motion. | entails | Kinetic engergy<>is<>the energy of anything in motion |
Energy of motion is called kinetic energy . | Kinetic engergy is the energy of anything in motion. | entails | Kinetic engergy<>is<>the energy of anything in motion |
Engergy of this type is called elastic energy or deformation energy. | Kinetic engergy is the energy of anything in motion. | neutral | Kinetic engergy<>is<>the energy of anything in motion |
Its energy is in the form of kinetic energy, the energy of motion. | Kinetic engergy is the energy of anything in motion. | entails | Kinetic engergy<>is<>the energy of anything in motion |
Kinetic energy is energy of motion. | Kinetic engergy is the energy of anything in motion. | entails | Kinetic engergy<>is<>the energy of anything in motion |
Kinetic Energy Energy of motion is called kinetic energy. | Kinetic engergy is the energy of anything in motion. | entails | Kinetic engergy<>is<>the energy of anything in motion |
Kinetic Energy Kinetic energy is the energy possessed by a body by virtue of its motion. | Kinetic engergy is the energy of anything in motion. | entails | Kinetic engergy<>is<>the energy of anything in motion |
Kinetic Energy The energy due to motion. | Kinetic engergy is the energy of anything in motion. | entails | Kinetic engergy<>is<>the energy of anything in motion |
Kinetic Energy- the energy of motion. | Kinetic engergy is the energy of anything in motion. | entails | Kinetic engergy<>is<>the energy of anything in motion |
Kinetic energy (energy of motion) | Kinetic engergy is the energy of anything in motion. | entails | Kinetic engergy<>is<>the energy of anything in motion |
Kinetic energy Kinetic energy is energy associated with motion. | Kinetic engergy is the energy of anything in motion. | entails | Kinetic engergy<>is<>the energy of anything in motion |
Kinetic energy The energy of motion. | Kinetic engergy is the energy of anything in motion. | entails | Kinetic engergy<>is<>the energy of anything in motion |
Kinetic energy deals with the motion of objects. | Kinetic engergy is the energy of anything in motion. | entails | Kinetic engergy<>is<>the energy of anything in motion |
Kinetic energy is energy a body possesses because it is in motion. | Kinetic engergy is the energy of anything in motion. | entails | Kinetic engergy<>is<>the energy of anything in motion |
Kinetic energy is energy associated with motion, so if there is motion there must be kinetic energy. | Kinetic engergy is the energy of anything in motion. | entails | Kinetic engergy<>is<>the energy of anything in motion |
Kinetic energy is energy associated with motion. | Kinetic engergy is the energy of anything in motion. | entails | Kinetic engergy<>is<>the energy of anything in motion |
Kinetic energy is energy in the form of motion. | Kinetic engergy is the energy of anything in motion. | entails | Kinetic engergy<>is<>the energy of anything in motion |
Kinetic energy is energy in use (or motion). | Kinetic engergy is the energy of anything in motion. | entails | Kinetic engergy<>is<>the energy of anything in motion |
Kinetic energy is energy that comes from motion. | Kinetic engergy is the energy of anything in motion. | entails | Kinetic engergy<>is<>the energy of anything in motion |
Kinetic energy is the energy of an object in motion. | Kinetic engergy is the energy of anything in motion. | entails | Kinetic engergy<>is<>the energy of anything in motion |
Kinetic energy is the energy of bodies in motion. | Kinetic engergy is the energy of anything in motion. | entails | Kinetic engergy<>is<>the energy of anything in motion |
Kinetic energy is the energy of mass in motion. | Kinetic engergy is the energy of anything in motion. | entails | Kinetic engergy<>is<>the energy of anything in motion |
Kinetic energy is the energy of motion and an object must be moving if it has kinetic energy. | Kinetic engergy is the energy of anything in motion. | entails | Kinetic engergy<>is<>the energy of anything in motion |
Kinetic energy is the energy of motion. | Kinetic engergy is the energy of anything in motion. | entails | Kinetic engergy<>is<>the energy of anything in motion |
The energy associated with this motion is termed kinetic energy. | Kinetic engergy is the energy of anything in motion. | entails | Kinetic engergy<>is<>the energy of anything in motion |
The energy of motion, or kinetic energy, is a form of energy. | Kinetic engergy is the energy of anything in motion. | entails | Kinetic engergy<>is<>the energy of anything in motion |
The potential energy is changed into KINETIC ENERGY, or the energy of motion. | Kinetic engergy is the energy of anything in motion. | entails | Kinetic engergy<>is<>the energy of anything in motion |
This energy is transmitted in the form of energy of motion or kinetic energy. | Kinetic engergy is the energy of anything in motion. | entails | Kinetic engergy<>is<>the energy of anything in motion |
This is why kinetic energy is the energy of motion. | Kinetic engergy is the energy of anything in motion. | entails | Kinetic engergy<>is<>the energy of anything in motion |
This kinetic energy is any energy of motion. | Kinetic engergy is the energy of anything in motion. | entails | Kinetic engergy<>is<>the energy of anything in motion |
Types of Kinetic Energy | Kinetic engergy is the energy of anything in motion. | neutral | Kinetic engergy<>is<>the energy of anything in motion |
d) Kinetic energy is the energy of motion. | Kinetic engergy is the energy of anything in motion. | entails | Kinetic engergy<>is<>the energy of anything in motion |
kinetic energy -energy of motion of an object. | Kinetic engergy is the energy of anything in motion. | entails | Kinetic engergy<>is<>the energy of anything in motion |
kinetic energy the energy of motion. | Kinetic engergy is the energy of anything in motion. | entails | Kinetic engergy<>is<>the energy of anything in motion |
A developer can improve on friction areas such as bones or joints of computerized characters with the vertex shader and fix these problem areas by creating more presentable, detailed movement. | Fixed joints do not allow any movement of the bones. | neutral | Fixed joints<>do not allow<>any movement of the bones |
Apparatus wherein the flow conducting joint means allows rotary or angular movement of the terminal member about a fixed axis. | Fixed joints do not allow any movement of the bones. | neutral | Fixed joints<>do not allow<>any movement of the bones |
Some of your joints, like those in your skull, are fixed and don't allow any movement. | Fixed joints do not allow any movement of the bones. | entails | Fixed joints<>do not allow<>any movement of the bones |
The equipment allows us to report on any single aircraft movement over fixed monitoring points, including date, time, altitude, position, aircraft type, and noise generated. | Fixed joints do not allow any movement of the bones. | neutral | Fixed joints<>do not allow<>any movement of the bones |
The latter allows early movement by rigidly fixing the fractured bones in place. | Fixed joints do not allow any movement of the bones. | neutral | Fixed joints<>do not allow<>any movement of the bones |