Concept explainers
Videos
Anton van Leeuwenhoek made an important contribution to the development of the cell theory. How?
a. He articulated that all organisms are made of cells.
b. He articulated that all cells come from preexisting cells.
c. He invented the first microscope and saw the first cell.
d. He invented more powerful microscopes and was the first to describe the diversity of cells.
Introduction:
The fundamental theory underlying the structural unit of life is known as cell theory. The cell theory is able to explain the structural unit, which is common in all the living organisms. The microscope development led to decoding the mystery about the fundamental unit and it confirmed that all the organisms are made up of cells. Anton van Leeuwenhoek was the first scientist to observe and describe the diversity of cells, such as blood cells, microscopic nematodes, and sperm cells.
Answer to Problem 1TYK
Correct answer:
Anton van Leeuwenhoek invented more powerful microscope and was the first to describe the diversity of cells. The efficient use of advanced magnification techniques, Anton van Leeuwenhoek observed the different type of cells.
Explanation of Solution
Explanation/Justification for the correct answer:
Option (d) is given as invention of the powerful microscope helped in describing the diversity of the cells. Anton van Leeuwenhoek was the first scientist who observes and describes the diversity of cells, such as blood cells, microscopic nematodes, and sperm cells. The magnifying power of microscopes was modified which resulted in the development of more powerful microscopes. Anton van Leeuwenhoek modified the magnifying power of microscopes, resulting in the invention of more powerful microscopes with magnification up to 300×. He was the first to observe the single-celled organisms and called them “animalcules”. Hence, Option (d) is correct.
Explanation for incorrect answers:
Option (a) is given as organisms made up of cells as an articulation. The claim was not just given by this scientist, rather a collective effort of scientists revealed that cells are the basic unit of all organism. So, it is a wrong answer.
Option (b) is given as the articulation that all cells have come from preexisting cells. This hypothesis was proposed by German scientist Rudolph Virchow. So, it is a wrong answer.
Option (c) is given as he invented the first microscope and observed by first cell Anton Van Leeuwenhoek. The first cell was observed by scientist Robert Hooke. So, it is a wrong answer.
In 1839, Schleiden & Schwann formally articulated that all organisms are composed of cells. A German scientist named Rudolph Virchow proposed that all cells arise from cells already in existence. Robert Hooke invented a microscope to examine the structure of cork from an oak tree. Leeuwenhoek further develop more powerful microscopes with magnification up to 300 ×; “×” refers to magnification power. Hence, the options (a), (b) and (c) are incorrect.
Anton van Leeuwenhoek made an important contribution to the development of the cell theory by inventing more powerful microscopes and was the first to describe the diversity of cells.
Want to see more full solutions like this?
Chapter 1 Solutions
Biological Science, Loose-leaf Edition (7th Edition)
- Molecular Biology You discover a disease causing mutation (indicated by the arrow) that alters splicing of its mRNA. This mutation (a base substitution in the splicing sequence) eliminates a 3’ splice site resulting in the inclusion of the second intron (I2) in the final mRNA. We are going to pretend that this intron is short having only 15 nucleotides (most introns are much longer so this is just to make things simple) with the following sequence shown below in bold. The ( ) indicate the reading frames in the exons; the included intron 2 sequences are in bold. A. Would you expected this change to be harmful? ExplainB. If you were to do gene therapy to fix this problem, briefly explain what type of gene therapy youwould use to correct this. Please help. Thank youarrow_forwardMolecular Biology Question Please help. Thank you Explain what is meant by the term “defective virus.” Explain how a defective virus is able to replicate.arrow_forwardMolecular Biology Explain why changing the codon GGG to GGA should not be harmful. Please help . Thank youarrow_forward
- Stage Percent Time in Hours Interphase .60 14.4 Prophase .20 4.8 Metaphase .10 2.4 Anaphase .06 1.44 Telophase .03 .72 Cytukinesis .01 .24 Can you summarize the results in the chart and explain which phases are faster and why the slower ones are slow?arrow_forwardCan you circle a cell in the different stages of mitosis? 1.prophase 2.metaphase 3.anaphase 4.telophase 5.cytokinesisarrow_forwardWhich microbe does not live part of its lifecycle outside humans? A. Toxoplasma gondii B. Cytomegalovirus C. Francisella tularensis D. Plasmodium falciparum explain your answer thoroughly.arrow_forward
- Select all of the following that the ablation (knockout) or ectopoic expression (gain of function) of Hox can contribute to. Another set of wings in the fruit fly, duplication of fingernails, ectopic ears in mice, excess feathers in duck/quail chimeras, and homeosis of segment 2 to jaw in Hox2a mutantsarrow_forwardSelect all of the following that changes in the MC1R gene can lead to: Changes in spots/stripes in lizards, changes in coat coloration in mice, ectopic ear formation in Siberian hamsters, and red hair in humansarrow_forwardPleiotropic genes are genes that (blank) Cause a swapping of organs/structures, are the result of duplicated sets of chromosomes, never produce protein products, and have more than one purpose/functionarrow_forward
- A loss of function mutation in Pitx1 enhancers can cause (blank) Removal of Pitx1 exons and growth of ectopic hindlimbs, growth of extra ectopic forelimbs, loss of forelimb specification and development, and loss of hindlimb specification and developmentarrow_forwardHox1a most likely contributes to (blank) patterning in the developing embryo? Ventral, posterior, limb or anteriorarrow_forwardSelect all of the following that can help establish Hox gene expression boundaries (things that affect Hox and not things that Hox affects). Retinoic acid, anterior/posterior axis, fibroblast growth factors, vagal neural crest, and enhancersarrow_forward
Human Biology (MindTap Course List)BiologyISBN:9781305112100Author:Cecie Starr, Beverly McMillanPublisher:Cengage Learning
Concepts of BiologyBiologyISBN:9781938168116Author:Samantha Fowler, Rebecca Roush, James WisePublisher:OpenStax College
Biology Today and Tomorrow without Physiology (Mi...BiologyISBN:9781305117396Author:Cecie Starr, Christine Evers, Lisa StarrPublisher:Cengage Learning
Comprehensive Medical Assisting: Administrative a...NursingISBN:9781305964792Author:Wilburta Q. Lindh, Carol D. Tamparo, Barbara M. Dahl, Julie Morris, Cindy CorreaPublisher:Cengage Learning